Inhibition of gene expression

ABSTRACT

A method of inhibiting gene expression is described. The method, which affects enzymatic activity in a plant. The method includes expressing in a plant, or a cell, a tissue or an organ thereof, a nucleotide sequence wherein the nucleotide sequence codes, partially or completely, for an intron in an antisense orientation; and wherein the nucleotide sequence does not contain a sequence that is antisense to an axon sequence normally associated with the intron.

This application is a 371 of PCT/EP96/03052 filed Jul. 12, 1996.

FIELD OF THE INVENTION

The present invention relates to a method of inhibiting gene expression, particularly inhibiting gene expression in a plant. The present invention also relates to a nucleotide sequence useful in the method. In addition, the present invention relates to a promoter that is useful for expressing the nucleotide sequence.

Starch is one of the main storage carbohydrates in plants, especially higher plants. The structure of starch consists of amylose and amylopectin. Amylose consists essentially of straight chains of α-1-4-linked glycosyl residues. Amylopectin comprises chains of α-1-4-linked glycosyl residues with some α-1-6 branches. The branched nature of amylopectin is accomplished by the action of inter alia an enzyme commonly known as the starch branching enzyme ("SBE"). SBE catalyses the formation of branch points in the amylopectin molecule by adding α-1,4 glucans through α-1,6-glucosidic branching linkages. The biosynthesis of amylose and amylopectin is schematically shown in FIG. 1, whereas the α-1-4-links and the α-1-6 links are shown in FIG. 2.

It is known that starch is an important raw material. Starch is widely used in the food, paper, and chemical industries. However, a large fraction of the starches used in these industrial applications are post-harvest modified by chemical, physical or enzymatic methods in order to obtain starches with certain required functional properties.

Within the past few years it has become desirable to make genetically modified plants which could be capable of producing modified starches which could be the same as the post-harvest modified starches. It is also known that it may be possible to prepare such genetically modified plants by expression of antisense nucleotide coding sequences. In this regard, June Bourque provides a detailed summary of antisense strategies for the genetic manipulations in plants (Bourque 1995 Plant Science 105 pp 125-149). At this stage, reference could be made to FIG. 3 which is a schematic diagram of one of the proposed mechanisms of antisense-RNA inhibition.

In particular, WO 92/11375 reports on a method of genetically modifying potato so as to form amylose-type starch. The method involves the use of an anti-sense construct that can apparently inhibit, to a varying extent, the expression of the gene coding for formation of the branching enzyme in potato. The antisense construct of WO 92/11375 consists of a tuber specific promoter, a transcription start sequence and the first exon of the branching enzyme in antisense direction. However, WO 92/11375 does not provide any antisense sequence data. In addition, WO 92/11375 only discloses the use of the potato GBSS promoter.

WO 92/14827 reports on a plasmid that, after insertion into the genome of a plant, can apparently cause changes in the carbohydrate concentration and carbohydrate composition, such as the concentration and composition of amylose and amylopectin, in the regenerated plant. The plasmid contains part of the coding sequence of a branching enzyme in an antisense orientation.

EP-A-0647715 reports on the use of antisense endogenous mRNA coding DNA to alter the characteristics and the metabolic pathways of ornamental plants.

EP-A-0467349 reports on the expression of sequences that are antisense to sequences upstream of a promoter to control gene expression.

EP-A-0458367 and U.S. Pat. No. 5,107,065 report on the expression of a nucleotide sequence to regulate gene expression in a plant. The nucleotide sequence is complementary to a mRNA sequence of a gene and may cover all or a portion of the non-coding region of the gene. In other words, the nucleotide sequences of EP-A-0458367 and U.S. Pat. No. 5,107,065 must at least comprise a sequence that is complementary to a coding region. EP-A-0458367 and U.S. Pat. No. 5107065 contain minimal sequence information.

Kuipers et al in Mol. Gen. Genet. [1995] 246 745-755 report on the expression of a series of nucleotides that are antisense to part of the genomic intron sequences of potato granule bound starch synthetase. Here the antisense intron sequences are attached to a part of the antisense exon sequences--wherein the intron sequences and the exon sequences are naturally associated with each other. In addition, the expressed antisense intron sequences are at most 231 bp in length.

Likewise, Kull et al in J. Genet & Breed. [1995] 49 69-76 report on the expression of a series of nucleotides that are antisense to part of the genomic intron sequences of potato granule bound starch synthetase. Likewise, here the antisense intron sequences are attached to a part of the antisense exon sequences--wherein the intron sequences and the exon sequences are naturally associated with each other. In addition, likewise, the expressed antisense intron sequences are at most 231 bp in length.

Shimada et al in Theor. Appl. Genet. [1993] 86 665-672 report on the expression of a series of nucleotides that are antisense to part of the genomic intron sequences of rice granule bound starch synthetase. Here the antisense intron sequences are attached to a part of the antisense exon sequences--wherein the intron sequences and the exon sequences are naturally associated with each other. In addition, the expressed antisense intron sequences are less than 350 bp in length.

Reviews on how enzymatic activity can be affected by expression of particular nucleotide sequences may be found in the teachings of Finnegan and McElroy [1994] Biotechnology 12 883-888; and Matzke and Matzke [1995] TIG 11 1-3.

Whilst it is known that enzymatic activity can be affected by expression of particular nucleotide sequences there is still a need for a method that can more reliably and/or more efficiently and/or more specifically affect enzymatic activity.

SUMMARY OF THE INVENTION

According to a first aspect of the present invention there is provided a method of affecting enzymatic activity in a plant (or a cell, a tissue or an organ thereof) comprising expressing in the plant (or a cell, a tissue or an organ thereof) a nucleotide sequence wherein the nucleotide sequence partially or completely codes for (is) an intron in an antisense orientation; and wherein the nucleotide sequence does not contain a sequence that is antisense to an exon sequence normally associated with the intron.

According to a second aspect of the present invention there is provided a method of affecting enzymatic activity in a starch producing organism (or a cell, a tissue or an organ thereof) comprising expressing in the starch producing organism (or a cell, a tissue or an organ thereof) a nucleotide sequence wherein the nucleotide sequence codes, partially or completely, for an intron in an antisense orientation; and wherein starch branching enzyme activity is affected and/or the levels of amylopectin are affected and/or the composition of starch is changed.

According to a third aspect of the present invention there is provided an antisense sequence comprising the nucleotide sequence shown as any one of SEQ.I.D. No. 15 to SEQ.I.D. No. 27 or a variant, derivative or homologue thereof.

According to a fourth aspect of the present invention there is provided a promoter comprising the sequence shown as SEQ.I.D. No. 14 or a variant, derivative or homologue thereof.

According to a fifth aspect of the present invention there is provided a construct capable of comprising or expressing the present invention.

According to a sixth aspect of the present invention there is provided a vector comprising or expressing the present invention.

According to a seventh aspect of the present invention there is provided a cell, tissue or organ comprising or expressing the present invention.

According to an eighth aspect of the present invention there is provided a transgenic starch producing organism comprising or expressing the present invention.

According to a ninth aspect of the present invention there is provided a starch obtained from the present invention.

According to a tenth aspect of the present invention there is provided pBEA8 (NCIMB 40753) or pBEA9 (NCIMB 40815).

According to an eleventh aspect of the present invention there is provided a nucleotide sequence that is antisense to any one or more of the intron sequences obtainable from λ-SBE 3.2 (NCIMB 40751) or λ-SBE 3.4 (NCIMB 40752) or a variant, derivative or homologue thereof.

NCIMB 40753, NCIMB 40751, and NCIMB 40752 were deposited with The National Collections of Industrial and Marine Bacteria Limited (NCIMB), 23, St. Machar Drive, Aberdeen, Scotland, AB2 1RY, United Kingdom, under the terms of Budapest Treaty, on Jul. 13, 1995; and, NCIMB 40815 was deposited with the NCIMB under the terms of the Budapest Treaty, on Jul. 9, 1996.

A key advantage of the present invention is that it provides a method for preparing modified starches that is not dependent on the need for post-harvest modification of starches. Thus the method of the present invention obviates the need for the use of hazardous chemicals that are normally used in the post-harvest modification of starches.

In addition, the present invention provides inter alia genetically modified plants which are capable of producing modified and/or novel and/or improved starches whose properties would satisfy various industrial requirements.

Thus, the present invention provides a method of preparing tailor-made starches in plants which could replace the post-harvest modified starches.

Also, the present invention provides a method that enables modified starches to be prepared by a method that can have a more beneficial effect on the environment than the known post-harvest modification methods which are dependent on the use of hazardous chemicals and large quantities of energy.

An other key advantage of the present invention is that it provides a method that may more reliably and/or more efficiently and/or more specifically affect enzymatic activity when compared to the known methods of affecting enzymatic activity. With regard to this advantage of the present invention it is to be noted that there is some degree of homology between coding regions of SBEs. However, there is little or no homology with the intron sequences of SBEs.

Thus, antisense intron expression provides a mechanism to affect selectively the expression of a particular SBE. This advantageous aspect could be used, for example, to reduce or eliminate a particular SBE enzyme and replace that enzyme with another enzyme which can be another branching enzyme or even a recombinant version of the affected enzyme or even a hybrid enzyme which could for example comprise part of a SBE enzyme from one source and at least a part of another SBE enzyme from another source. This particular feature of the present invention is covered by the combination aspect of the present invention which is discussed in more detail later.

Thus the present invention provides a mechanism for selectively affecting SBE activity. This is in contrast to the prior art methods which are dependent on the use of for example antisense exon expression whereby it would not be possible to introduce new SBE activity without affecting that activity as well.

Preferably with the first aspect of the present invention starch branching enzyme activity is affected and/or wherein the levels of amylopectin are affected and/or the composition of starch is changed.

Preferably with the second aspect of the present invention the nucleotide sequence does not contain a sequence that is antisense to an exon sequence normally associated with the intron.

Preferably with the fourth aspect of the present invention the promoter is in combination with a gene of interest ("GOI").

Preferably the enzymatic activity is reduced or eliminated.

Preferably the nucleotide sequence codes for at least substantially all of at least one intron in an antisense orientation.

Preferably the nucleotide sequence codes, partially or completely, for two or more introns and wherein each intron is in an anti-sense orientation.

Preferably the nucleotide sequence comprises at least 350 nucleotides (e.g. at least 350 bp), more preferably at least 500 nucleotides (e.g. at least 500 bp).

Preferably the nucleotide sequence comprises the sequence shown as any one of SEQ. I.D. No. 15 to SEQ.I.D. No. 27 or a variant, derivative or homologue thereof, including combinations thereof.

Preferably the nucleotide sequence is expressed by a promoter having a sequence shown as SEQ. I.D. No 14 or a variant, derivative or homologue thereof.

Preferably the transgenic starch producing organism is a plant.

A preferred aspect of the present invention therefore relates to a method of affecting enzymatic activity in a plant (or a cell, a tissue or an organ thereof) comprising expressing in the plant (or a cell, a tissue or an organ thereof) a nucleotide sequence wherein the nucleotide sequence codes, partially or completely, for an intron in an antisense orientation; wherein the nucleotide sequence does not contain a sequence that is antisense to an exon sequence normally associated with the intron; and wherein starch branching enzyme activity is affected and/or the levels of amylopectin are affected and/or the composition of starch is changed.

A more preferred aspect of the present invention therefore relates to a method of affecting enzymatic activity in a plant (or a cell, a tissue or an organ thereof) comprising expressing in the plant (or a cell, a tissue or an organ thereof) a nucleotide sequence wherein the nucleotide sequence codes, partially or completely, for an intron in an antisense orientation; wherein the nucleotide sequence does not contain a sequence that is antisense to an exon sequence normally associated with the intron; wherein starch branching enzyme activity is affected and/or the levels of amylopectin are affected and/or the composition of starch is changed; and wherein the nucleotide sequence comprises the sequence shown as any one of SEQ.I.D. No. 15 to SEQ.I.D. No. 27 or a variant, derivative or homologue thereof, including combinations thereof.

The term "nucleotide" in relation to the present invention includes DNA and RNA. Preferably it means DNA, more preferably DNA prepared by use of recombinant DNA techniques.

The term "intron" is used in its normal sense as meaning a segment of nucleotides, usually DNA, that does not encode part or all of an expressed protein or enzyme.

The term "exon" is used in its normal sense as meaning a segment of nucleotides, usually DNA, encoding part or all of an expressed protein or enzyme.

Thus, the term "intron" refers to gene regions that are transcribed into RNA molecules, but which are spliced out of the RNA before the RNA is translated into a protein. In contrast, the term "exon" refers to gene regions that are transcribed into RNA and subsequently translated into proteins.

The terms "variant" or "homologue" or "fragment" in relation to the nucleotide sequence of the present invention include any substitution of, variation of, modification of, replacement of, deletion of or addition of one (or more) nucleic acid from or to the respective nucleotide sequence providing the resultant nucleotide sequence can affect enzyme activity in a plant, or cell or tissue thereof, preferably wherein the resultant nucleotide sequence has at least the same effect as any one of the antisense sequences shown as SEQ.I.D. No.s 15-27. In particular, the term "homologue" covers homology with respect to similarity of structure and/or similarity of function providing the resultant nucleotide sequence has the ability to affect enzymatic activity in accordance with the present invention. With respect to sequence homology (i.e. similarity), preferably there is more than 80% homology, more preferably at least 85% homology, more preferably at least 90% homology, even more preferably at least 95% homology, more preferably at least 98% homology. The above terms are also synonymous with allelic variations of the sequences.

Likewise, the terms "variant" or "homologue" or "fragment" in relation to the promoter of the present invention include any substitution of, variation of, modification of, replacement of, deletion of or addition of one (or more) nucleic acid from or to the respective promoter sequence providing the resultant promoter sequence allows expression of a GOI, preferably wherein the resultant promoter sequence has at least the same effect as SEQ.I.D. No. 14. In particular, the term "homologue " covers homology with respect to similarity of structure and/or similarity of function providing the resultant promoter sequence has the ability to allow for expression of a GOI, such as a nucleotide sequence according to the present invention. With respect to sequence homology (i.e. similarity), preferably there is more than 80% homology, more preferably at least 85% homology, more preferably at least 90% homology, even more preferably at least 95% homology, more preferably at least 98% homology. The above terms are also synonymous with allelic variations of the sequences.

The term "antisense" means a nucleotide sequence that is complementary to, and can therefore hybridize with, any one or all of the intron sequences of the present invention, including partial sequences thereof.

With the present invention, the antisense intron can be complementary to an entire intron of the gene to be inhibited. However, in some circumstances, partial antisense sequences may be used (i.e. sequences that are not or do not comprise the full complementary sequence) providing the partial sequences affect enzymatic activity. Suitable examples of partial sequences include sequences that are shorter than any one of the full antisense sequences shown as SEQ.I.D.No.s 15 to 27 but which comprise nucleotides that are at least antisense to the sense intron sequences adjacent the respective exon or exons.

With regard to the second aspect of the present invention (i.e. specifically affecting SBE activity), the nucleotide sequences of the present invention may comprise one or more sense or antisense exon sequences of the SBE gene, including complete or partial sequences thereof, providing the nucleotide sequences can affect SBE activity, preferably wherein the nucleotide sequences reduce or eliminate SBE activity. Preferably, the nucleotide sequence of the second aspect of the present invention does not comprise an antisense exon sequence.

The term "vector" includes an expression vector and a transformation vector. The term "expression vector" means a construct capable of in vivo or in vitro expression. The term "transformation vector" means a construct capable of being transferred from one species to another--such as from an E. Coli plasmid to a fungus or a plant cell, or from an Agrobacterium to a plant cell.

The term "construct"--which is synonymous with terms such as "conjugate", "cassette" and "hybrid"--in relation to the antisense nucleotide sequence aspect of the present invention includes the nucleotide sequence according to the present invention directly or indirectly attached to a promoter. An example of an indirect attachment is the provision of a suitable spacer group such as an intron sequence, such as the Sh1-intron or the ADH intron, intermediate the promoter and the nucleotide sequence of the present invention. The same is true for the term "fused" in relation to the present invention which includes direct or indirect attachment. The terms do not cover the natural combination of the wild type SBE gene when associated with the wild type SBE gene promoter in their natural environment.

The construct may even contain or express a marker which allows for the selection of the genetic construct in, for example, a plant cell into which it has been transferred. Various markers exist which may be used in, for example, plants--such as mannose. Other examples of markers include those that provide for antibiotic resistance--e.g. resistance to G418, hygromycin, bleomycin, kanamycin and gentamycin.

The construct of the present invention preferably comprises a promoter. The term "promoter" is used in the normal sense of the art, e.g. an RNA polymerase binding site in the Jacob-Monod theory of gene expression. Examples of suitable promoters are those that can direct efficient expression of the nucleotide sequence of the present invention and/or in a specific type of cell. Some examples of tissue specific promoters are disclosed in WO 92/11375.

The promoter could additionally include conserved regions such as a Pribnow Box or a TATA box. The promoters may even contain other sequences to affect (such as to maintain, enhance, decrease) the levels of expression of the nucleotide sequence of the present invention. Suitable examples of such sequences include the Sh1-intron or an ADH intron. Other sequences include inducible elements--such as temperature, chemical, light or stress inducible elements. Also, suitable elements to enhance transcription or translation may be present. An example of the latter element is the TMV 5' leader sequence (see Sleat Gene 217 [1987] 217-225; and Dawson Plant Mol. Biol. 23 [1993] 97).

As mentioned, the construct and/or the vector of the present invention may include a transcriptional initiation region which may provide for regulated or constitutive expression. Any suitable promoter may be used for the transcriptional initiation region, such as a tissue specific promoter. In one aspect, preferably the promoter is the patatin promoter or the E35S promoter. In another aspect, preferably the promoter is the SBE promoter.

If, for example, the organism is a plant then the promoter can be one that affects expression of the nucleotide sequence in any one or more of seed, tuber, stem, sprout, root and leaf tissues, preferably tuber. By way of example, the promoter for the nucleotide sequence of the present invention can be the α-Amy 1 promoter (otherwise known as the Amy 1 promoter, the Amy 637 promoter or the α-Amy 637 promoter) as described in our co-pending UK patent application No. 9421292.5 filed Oct. 21, 1994. Alternatively, the promoter for the nucleotide sequence of the present invention can be the α-Amy 3 promoter (otherwise known as the Amy 3 promoter, the Amy 351 promoter or the α-Amy 351 promoter) as described in our co-pending UK patent application No. 9421286.7 filed Oct. 21, 1994.

The present invention also encompasses the use of a promoter to express a nucleotide sequence according to the present invention, wherein a part of the promoter is inactivated but wherein the promoter can still function as a promoter. Partial inactivation of a promoter in some instances is advantageous. In particular, with the Amy 351 promoter mentioned earlier it is possible to inactivate a part of it so that the partially inactivated promoter expresses the nucleotide sequence of the present invention in a more specific manner such as in just one specific tissue type or organ. The term "inactivated" means partial inactivation in the sense that the expression pattern of the promoter is modified but wherein the partially inactivated promoter still functions as a promoter. However, as mentioned above, the modified promoter is capable of expressing a gene coding for the enzyme of the present invention in at least one (but not all) specific tissue of the original promoter. Examples of, partial inactivation include altering the folding pattern of the promoter sequence, or binding species to parts of the nucleotide sequence, so that a part of the nucleotide sequence is not recognised by, for example, RNA polymerase. Another, and preferable, way of partially inactivating the promoter is to truncate it to form fragments thereof. Another way would be to mutate at least a part of the sequence so that the RNA polymerase can not bind to that part or another part. Another modification is to mutate the binding sites for regulatory proteins for example the CreA protein known from filamentous fungi to exert carbon catabolite repression, and thus abolish the catabolite repression of the native promoter.

The construct and/or the vector of the present invention may include a transcriptional termination region.

The nucleotide according to the present invention can be expressed in combination (but not necessarily at the same time) with an additional construct. Thus the present invention also provides a combination of constructs comprising a first construct comprising the nucleotide sequence according to the present invention operatively linked to a first promoter; and a second construct comprising a GOI operatively linked to a second promoter (which need not be the same as the first promoter). With this aspect of the present invention the combination of constructs may be present in the same vector, plasmid, cells, tissue, organ or organism. This aspect of the present invention also covers methods of expressing the same, preferably in specific cells or tissues, such as expression in just a specific cell or tissue, of an organism, typically a plant. With this aspect of the present invention the second construct does not cover the natural combination of the gene coding for an enzyme ordinarily associated with the wild type gene promoter when they are both in their natural environment.

An example of a suitable combination would be a first construct comprising the nucleotide sequence of the present invention and a promoter, such as the promoter of the present invention, and a second construct comprising a promoter, such as the promoter of the present invention, and a GOI wherein the GOI codes for another starch branching enzyme either in sense or antisense orientation.

The above comments relating to the term "construct" for the antisense nucleotide aspect of the present invention are equally applicable to the term "construct" for the promoter aspect of the present invention. In this regard, the term includes the promoter according to the present invention directly or indirectly attached to a GOI.

The term "GOI" with reference to the promoter aspect of the present invention or the combination aspect of the present invention means any gene of interest, which need not necessarily code for a protein or an enzyme--as is explained later. A GOI can be any nucleotide sequence that is either foreign or natural to the organism in question, for example a plant.

Typical examples of a GOI include genes encoding for other proteins or enzymes that modify metabolic and catabolic processes. The GOI may code for an agent for introducing or increasing pathogen resistance.

The GOI may even be an antisense construct for modifying the expression of natural transcripts present in the relevant tissues. An example of such a GOI is the nucleotide sequence according to the present invention.

The GOI may even code for a protein that is non-natural to the host organism--e.g. a plant. The GOI may code for a compound that is of benefit to animals or humans. For example, the GOI could code for a pharmaceutically active protein or enzyme such as any one of the therapeutic compounds insulin, interferon, human serum albumin, human growth factor and blood clotting factors. The GOI may even code for a protein giving additional nutritional value to a food or feed or crop. Typical examples include plant proteins that can inhibit the formation of anti-nutritive factors and plant proteins that have a more desirable amino acid composition (e.g. a higher lysine content than a non-transgenic plant). The GOI may even code for an enzyme that can be used in food processing such as xylanases and α-galactosidase. The GOI can be a gene encoding for any one of a pest toxin, an antisense transcript such as that for α-amylase, a protease or a glucanase. Alternatively, the GOI can be a nucleotide sequence according to the present invention.

The GOI can be the nucleotide sequence coding for the arabinofuranosidase enzyme which is the subject of our co-pending UK patent application 9505479.7. The GOI can be the nucleotide sequence coding for the glucanase enzyme which is the subject of our co-pending UK patent application 9505475.5. The GOI can be the nucleotide sequence coding for the a-amylase enzyme which is the subject of our co-pending UK patent application 9413439.2. The GOI can be the nucleotide sequence coding for the α-amylase enzyme which is the subject of our co-pending UK patent application 9421290.9. The GOI can be any of the nucleotide sequences coding for the α-glucan lyase enzyme which are described in our co-pending PCT patent application PCT/EP94103397.

In one aspect the GOI can even be a nucleotide sequence according to the present invention but when operatively linked to a different promoter.

The GOI could include a sequence that codes for one or more of a xylanase, an arabinase, an acetyl esterase, a rhamnogalacturonase, a glucanase, a pectinase, a branching enzyme or another carbohydrate modifying enzyme or proteinase. Alternatively, the GOI may be a sequence that is antisense to any of those sequences.

As mentioned above, the present invention provides a mechanism for selectively affecting a particular enzymatic activity. In an important application of the present invention it is now possible to reduce or eliminate expression of a genomic nucleotide sequence coding for a genomic protein or enzyme by expressing an antisense intron construct for that particular genomic protein or enzyme and (e.g. at the same time) expressing a recombinant version of that enzyme or protein--in other words the GOI is a recombinant nucleotide sequence coding for the genomic enzyme or protein. This application allows expression of desired recombinant enzymes and proteins in the absence of (or reduced levels of) respective genomic enzymes and proteins. Thus the desired recombinant enzymes and proteins can be easily separated and purified from the host, organism. This particular aspect of the present invention is very advantageous over the prior art methods which, for example, rely on the use of anti-sense exon expression which methods also affect expression of the recombinant enzyme.

Thus, a further aspect of the present invention relates to a method of expressing a recombinant protein or enzyme in a host organism comprising expressing a nucleotide sequence coding for the recombinant protein or enzyme; and expressing a further nucleotide sequence wherein the further nucleotide sequence codes, partially or completely, for an intron in an antisense orientation; wherein the intron is an intron normally associated with the genomic gene encoding a protein or an enzyme corresponding to the recombinant protein or enzyme; and wherein the further nucleotide sequence does not contain a sequence that is antisense to an exon sequence normally associated with the intron. Additional aspects cover the combination of those nucleotide sequences including their incorporation in constructs, vectors, cells, tissues and transgenic organisms.

Therefore the present invention also relates to a combination of nucleotide sequences comprising a first nucleotide sequence coding for a recombinant enzyme; and a second nucleotide sequence which corresponds to an intron in antisense orientation; wherein the intron is an intron that is associated with a genomic gene encoding an enzyme corresponding to the recombinant enzyme; and wherein the second nucleotide sequence does not contain a sequence that is antisense to an exon sequence normally associated with the intron.

The GOI may even code for one or more introns, such as any one or more of the intron sequences presented in the attached sequence listings. For example, the present invention also covers the expression of for example an antisense intron (e.g. SEQ.I.D.No. 15) in combination with for example a sense intron which preferably is not complementary to the antisense intron sequence (e.g. SEQ.I.D.No. 2).

The terms "cell", "tissue" and "organ" include cell, tissue and organ per se and when within an organism.

The term "organism" in relation to the present invention includes any organism that could comprise the nucleotide sequence according to the present invention and/or wherein the nucleotide sequence according to the present invention can be expressed when present in the organism. Preferably the organism is a starch producing organism such as any one of a plant, algae, fungi, yeast and bacteria, as well as cell lines thereof. Preferably the organism is a plant.

The term "starch producing organism" includes any organism that can biosynthesise starch. Preferably, the starch producing organism is a plant.

The term "plant" as used herein includes any suitable angiosperm, gymnosperm, monocotyledon and dicotyledon. Typical examples of suitable plants include vegetables such as potatoes; cereals such as wheat, maize, and barley; fruit; trees; flowers; and other plant crops. Preferably, the term means "potato".

The term "transgenic organism" in relation to the present invention includes any organism that comprises the nucleotide sequence according to the present invention and/or products obtained therefrom, and/or wherein the nucleotide sequence according to the present invention can be expressed within the organism. Preferably the nucleotide sequence of the present invention is incorporated in the genome of the organism. Preferably the transgenic organism is a plant, more preferably a potato.

To prepare the host organism one can use prokaryotic or eukaryotic organisms. Examples of suitable prokaryotic hosts include E. coli and Bacillus subtilis. Teachings on the transformation of prokaryotic hosts is well documented in the art, for example see Sambrook et al (Sambrook et al. in Molecular Cloning: A Laboratory Manual, 2nd edition, 1989, Cold Spring Harbor Laboratory Press).

Even though the enzyme according to the present invention and the nucleotide sequence coding for same are not disclosed in EP-B-0470145 and CA-A-2006454, those two documents do provide some useful background commentary on the types of techniques that may be employed to prepare transgenic plants according to the present invention. Some of these background teachings are now included in the following commentary.

The basic principle in the construction of genetically modified plants is to insert genetic information in the plant genome so as to obtain a stable maintenance of the inserted genetic material.

Several techniques exist for inserting the genetic information, the two main principles being direct introduction of the genetic information and introduction of the genetic information by use of a vector system. A review of the general techniques may be found in articles by Potrykus (Annu Rev Plant Physiol Plant Mol Biol [1991] 42:205-225) and Christou (Agro-Food-Industry Hi-Tech March/April 17-27, 1994).

Thus, in one aspect, the present invention relates to a vector system which carries a nucleotide sequence or construct according to the present invention and which is capable of introducing the nucleotide sequence or construct into the genome of an organism, such as a plant.

The vector system may comprise one vector, but it can comprise two vectors. In the case of two vectors, the vector system is normally referred to as a binary vector system. Binary vector systems are described in further detail in Gynheung An et al. (1980), Binary Vectors, Plant Molecular Biology Manual A3, 1-19.

One extensively employed system for transformation of plant cells with a given promoter or nucleotide sequence or construct is based on the use of a Ti plasmid from Agrobacterium tumefaciens or a Ri plasmid from Agrobacterium rhizogenes An et al. (1986), Plant Physiol. 81, 301-305 and Butcher D. N. et al. (1980), Tissue Culture Methods for Plant Pathologists, eds.: D. S. Ingrams and J. P. Helgeson, 203-208. Several different Ti and Ri plasmids have been constructed which are suitable for the construction of the plant or plant cell constructs described above. A non-limiting example of such a Ti plasmid is pGV3850.

The nucleotide sequence or construct of the present invention should preferably be inserted into the Ti-plasmid between the terminal sequences of the T-DNA or adjacent a T-DNA sequence so as to avoid disruption of the sequences immediately surrounding the T-DNA borders, as at least one of these regions appears to be essential for insertion of modified T-DNA into the plant genome.

As will be understood from the above explanation, if the organism is a plant the vector system of the present invention is preferably one which contains the sequences necessary to infect the plant (e.g. the vir region) and at least one border part of a T-DNA sequence, the border part being located on the same vector as the genetic construct.

Furthermore, the vector system is preferably an Agrobacterium tumefaciens Ti-plasmid or an Agrobacterium rhizogenes Ri-plasmid or a derivative thereof. As these plasmids are well-known and widely employed in the construction of transgenic plants, many vector systems exist which are based on these plasmids or derivatives thereof.

In the construction of a transgenic plant the nucleotide sequence or construct of the present invention may be first constructed in a microorganism in which the vector can replicate and which is easy to manipulate before insertion into the plant. An example of a useful microorganism is E. coli, but other microorganisms having the above properties may be used. When a vector of a vector system as defined above has been constructed in E. coli, it is transferred, if necessary, into a suitable Agrobacterium strain, e.g. Agrobacterium tumefaciens. The Ti-plasmid harbouring the nucleotide sequence or construct of the present invention is thus preferably transferred into a suitable Agrobacterium strain, e.g. A. tumefaciens, so as to obtain an Agrobacterium cell harbouring the promoter or nucleotide sequence or construct of the present invention, which DNA is subsequently transferred into the plant cell to be modified.

If, for example, for the transformation the Ti- or Ri-plasmid of the plant cells is used, at least the right boundary and often however the right and the left boundary of the Ti- and Ri-plasmid T-DNA, as flanking areas of the introduced genes, can be connected. The use of T-DNA for the transformation of plant cells has been intensively studied and is described in EP-A-120516; Hoekema, in: The Binary Plant Vector System Offset-drukkerij Kanters B. B., Alblasserdam, 1985, Chapter V; Fraley, et al., Crit. Rev. Plant Sci., 4:1-46; and An et al., EMBO J. (1985) 4:277-284.

Direct infection of plant tissues by Agrobacterium is a simple technique which has been widely employed and which is described in Butcher D. N. et al. (1980), Tissue Culture Methods for Plant Pathologists, eds.: D. S. Ingrams and J. P. Helgeson, 203-208. For further teachings on this topic see Potrykus (Annu Rev Plant Physiol Plant Mol Biol [1991] 42:205-225) and Christou (Agro-Food-Industry Hi-Tech March/April 17-27, 1994). With this technique, infection of a plant may be performed in or on a certain part or tissue of the plant, i.e. on a part of a leaf, a root, a stem or another part of the plant.

Typically, with direct infection of plant tissues by Agrobacterium carrying the GOI (such as the nucleotide sequence according to the present invention) and, optionally, a promoter, a plant to be infected is wounded, e.g. by cutting the plant with a razor blade or puncturing the plant with a needle or rubbing the plant with an abrasive. The wound is then inoculated with the Agrobacterium. The inoculated plant or plant part is then grown on a suitable culture medium and allowed to develop into mature plants.

When plant cells are constructed, these cells may be grown and maintained in accordance with well-known tissue culturing methods such as by culturing the cells in a suitable culture medium supplied with the necessary growth factors such as amino acids, plant hormones, vitamins, etc.

Regeneration of the transformed cells into genetically modified plants may be accomplished using known methods for the regeneration of plants from cell or tissue cultures, for example by selecting transformed shoots using an antibiotic and by subculturing the shoots on a medium containing the appropriate nutrients, plant hormones, etc.

Further teachings on plant transformation may be found in EP-A-0449375.

As reported in CA-A-2006454, a large amount of cloning vectors are available which contain a replication system in E. coli and a marker which allows a selection of the transformed cells. The vectors contain for example pBR 322, pUC series, M13 mp series, pACYC 184 etc. In this way, the nucleotide or construct of the present invention can be introduced into a suitable restriction position in the vector. The contained plasmid is then used for the transformation in E. coli. The E. coli cells are cultivated in a suitable nutrient medium and then harvested and lysed. The plasmid is then recovered. As a method of analysis there is generally used sequence analysis, restriction analysis, electrophoresis and further biochemical-molecular biological methods. After each manipulation, the used DNA sequence can be restricted and connected with the next DNA sequence. Each sequence can be cloned in the same or different plasmid.

After the introduction of the nucleotide sequence or construct according to the present invention in the plants the presence and/or insertion of further DNA sequences may be necessary--such as to create combination systems as outlined above (e.g. an organism comprising a combination of constructs).

The above commentary for the transformation of procaryotic organisms and plants with the nucleotide sequence of the present invention is equally applicable for the transformation of those organisms with the promoter of the present invention.

In summation, the present invention relates to affecting enzyme activity by expressing antisense intron sequences.

Also, the present invention relates to a promoter useful for the expression of those antisense intron sequences.

The following samples have been deposited in accordance with the Budapest Treaty at the recognised depository The National Collections of Industrial and Marine Bacteria Limited (NCIMB) at 23 St Machar Drive, Aberdeen, Scotland, AB2 1RY, United Kingdom, on Jul. 13, 1995:

NCIMB 40753 (which refers to pBEA 8 as described herein);

NCIMB 40751 (which refers to λ-SBE 3.2 as described herein), and

NCIMB 40752 (which refers to λ-SBE 3.4 as described herein).

The following sample has been deposited in accordance with the Budapest Treaty at the recognised depository The National Collections of Industrial and Marine Bacteria Limited (NCIMB) at 23 St Machar Drive, Aberdeen, Scotland, AB2 1RY, United Kingdom, on Jul. 9, 1996:

NCIMB 40815 (which refers to pBEA 9 as described herein).

A highly preferred embodiment of the present invention therefore relates to a method of affecting enzymatic activity in a plant (or a cell, a tissue or an organ thereof) comprising expressing in the plant (or a cell, a tissue or an organ thereof) a nucleotide sequence wherein the nucleotide sequence codes, partially or completely, for an intron in an antisense orientation; wherein the nucleotide sequence does not contain a sequence that is antisense to an exon sequence normally associated with the intron; wherein starch branching enzyme activity is affected and/or the levels of amylopectin are affected and/or the composition of starch is changed; and wherein the nucleotide sequence is obtainable from NCIMB 40753 or NCIMB 40815, or is antisense to any one or more of the intron sequences obtainable from either λ-SBE 3.2 (NCIMB 40751) or λSBE 3.4 (NCIMR 40752) or a variant, derivative or homologue thereof.

A more highly preferred aspect of the present invention therefore relates to a method of affecting enzymatic activity in a plant (or a cell, a tissue or an organ thereof) comprising expressing in the plant (or a cell, a tissue or an organ thereof) a nucleotide sequence wherein the nucleotide sequence codes, partially or completely, for an intron in an antisense orientation; wherein the nucleotide sequence does not contain a sequence that is antisense to an exon sequence normally associated with the intron; wherein starch branching enzyme activity is affected and/or the levels of amylopectin are affected and/or the composition of starch is changed; wherein the nucleotide sequence comprises the sequence shown as any one of SEQ.I.D. No. 15 to SEQ.I.D. No. 27 or a variant, derivative or homologue thereof, including combinations thereof; and wherein the nucleotide sequence is obtainable from NCIMB 40753 or NCIMB 40815, or is antisense to any one or more of the intron sequences obtainable from either λSBE 3.2 (NCIMB 40751) or λSBE 3.4 (NCIMB 40752) or a variant, derivative or homologue thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1, which is a schematic representation of the biosynthesis of amylose and amylopectin;

FIG. 2, which is a diagrammatic representation of the α-1-4-links and the α-1-6 links of amylopectin;

FIG. 3, which is a diagrammatic representation of a possible antisense-RNA inhibition mechanism;

FIG. 4, which is a diagrammatic representation of the exon-intron structure of a genomic SBE clone;

FIG. 5, which is a plasmid map of pPATA1, which is 3936 bp in size;

FIG. 6, which is a plasmid map of pABE6, which is 5106 bp in size:

FIG. 7, which is a plasmid map of pVictorIV Man, which is 7080 bp in size;

FIG. 8, which is a plasmid map of pBEA8, which is 9.54 kb in size;

FIG. 9, which is a plasmid map of pBEA9, which is 9.54 kb in size;

FIG. 10, which is a plasmid map of pBEP2, which is 10.32 kb in size;

FIG. 11, which is a plasmid map of pVictor5a, which is 9.12 kb in size; and

FIG. 12, which shows the full genomic nucleotide sequence for SBE including the promoter, exons and introns.

DETAILED DESCRIPTION OF THE INVENTION

FIGS. 1 and 2 were referred to above in the introductory description concerning starch in general. FIG. 3 was referred to above in the introductory description concerning antisense expression.

As mentioned, FIG. 4 is a diagrammatic representation of the exon-intron structure of a genomic SBE clone, the sequence of which is shown in FIG. 12. This clone, which has about 11.5 k base pairs, comprises 14 exons and 13 introns. The introns are numbered in increasing order from the 5' end to the 3' end and correspond to SEQ.I.D.No.s 1-13, respectively. Their respective antisense intron sequences are shown as SEQ.I.D.No.s 15-27.

In more detail, FIGS. 4 and 12 present information on the 11478 base pairs of a potato SBE gene. The 5' region from nucleotides 1 to 2082 contain the promoter region of the SBE gene. A TATA box candidate at nucleotide 2048 to 2051 is boxed. The homology between a potato SBE cDNA clone (Poulsen & Kreiberg (1993) Plant Physiol 102: 1053-1054) and the exon DNAs begin at 2083 bp and end at 9666 bp. The homology between the cDNA and the exon DNA is indicated by nucleotides in upper case letters, while the translated amino acid sequences are shown in the single letter code below the exon DNA. Intron sequences are indicated by lower case letters.

FIGS. 5 to 7 are discussed below. As mentioned, FIG. 8 is a plasmid map of pBEA8, which is 9.54 k base pairs in size; and FIG. 9 is a plasmid map of pBEA9, which is 9.54 k base pairs in size. Each of pBEA 8 and pBEA 9 comprises an antisense sequence to the first intron sequence of the potato SBE gene. This first intron sequence, which has 1177 base pairs, is shown in FIG. 4 and lies between the first exon and the second exon.

These experiments and aspects of the present invention are now discussed in more detail.

Experimental Protocol

Isolation, Subcloning in Plasmas, and Sequencing of Genomic SBE Clones

Various clones containing the potato SBE gene were isolated from a Desiree potato genomic library (Clontech Laboratories Inc., Palo Alto Calif., USA) using radioactively labelled potato SBE cDNA (Poulsen & Kreiberg (1993) Plant Physiol. 102:1053-1054) as probe. The fragments of the isolated λ-phages containing SBE DNA (λSBE 3.2-NCIMB 40751- and λSBE-3.4-NCIMB 40752) were identified by Southern analysis and then subcloned into pBluescript II vectors (Clontech Laboratories Inc., Palo Alto Calif., USA). λSBE 3.2 contains a 15 kb potato DNA insert and λSBE-3.4 contains a 13 kb potato DNA insert. The resultant plasmids were called pGB3, pGB11, pGB15, pGB16 and pGB25 (see discussion below). The respective inserts were then sequenced using the Pharmacia Autoread Sequencing Kit (Pharmacia, Uppsala) and a A.L.F. DNA sequencer (Pharmacia, Uppsala).

In total, a stretch of 11.5 kb of the SBE gene was sequenced. The sequence was deduced from the above-mentioned plasmids, wherein: pGB25 contains the sequences from 1 bp to 836 bp, pGB15 contains the sequences from 735 bp to 2580 bp, pGB16 contains the sequences from 2580 bp to 5093 bp, pGB11 contains the sequences from 348 bp to 7975 bp, and pGB3 contains the sequences from 7533 bp to 11468 bp.

In more detail, pGB3 was constructed by insertion of a 4 kb EcoRI fragment isolated from λSBE 3.2 into the EcoRI site of pBluescript II SK (+). pGB11 was constructed by insertion of a 4.7 kb XhoI fragment isolated from λSBE 3.4 into the XhoI site of pBluescript II SK (+). pGB15 was constructed by insertion of a 1.7 kb SpeI fragment isolated from λSBE 3.4 into the SpeI site of pBluescript II SK (+). pGB16 was constructed by insertion of a 2.5 kb SpeI fragment isolated from λSBE 3.4 into the SpeI site of pBluescript II SK (+). For the construction of pGB25 a PCR fragment was produced with the primers

5' GGA ATT CCA GTC GCA GTC TAC ATT AC 3' (SEQ ID NO. 30) and

5' CGG GAT CCA GAG GCA TTA AGA TTT CTG G 3' (SEQ ID NO. 31) and λSBE 3.4 as a template.

The PCR fragment was digested with BamHI and EcoRI, and inserted in pBluescript II SK (+) digested with the same restriction enzymes.

Construction of SBE Antisense Intron Plasmids pBEA8 and pBEA9

The SBE intron 1 was amplified by PCR using the oligonucleotides:

5' CGG GAT CCA AAG AAA TTC TCG AGG TTA CAT GG 3' (SEQ ID NO. 32) and

5' CGG GAT CCG GGG TAA TTT TTA CTA ATT TCA TG 3' (SEQ ID NO. 33) and the λSBE 3.4 phage containing the SBE gene as template.

The PCR product was digested with BamHI and inserted in an antisense orientation in the BamHI site of plasmid pPATA1 (described in WO 94/24292) between the patatin promoter and the 355 terminator. This construction, pABE6, was digested with KpnI, and the 2.4 kb "patatin promoter-SBE intron 1-35S terminator" KpnI fragment was isolated and inserted in the KpnI site of the plant transformation vector pVictorIV Man. The KpnI fragment was inserted in two orientations yielding plasmids pBEA8 and pBEA9. pVictorIV Man is shown in FIG. 7 and is formed by insertion of a filled in XbaI fragment containing a E35S promoter-manA-35S terminator cassette, isolated from plasmid pVictorIV SGiN Man (WO 94/24292) into the filled in XhoI site of pVictor IV. The pVictor regions of pVictor IV Man contained between the coordinates 2.52 bp to 0.32 bp (see FIG. 7).

Production of Transgenic Potato Plants

Axenic stock cultures

Shoot cultures of Solanum tuberosum `Bintje` and `Dianella` are maintained on a substrate (LS) of a formula according to Linsmaier, E. U. and Skoog, F. (1965), Physiol. Plant. 18: 100-127, in addition containing 2 μM silver thiosulphate at 25° C. and 16 h light/8 h dark.

The cultures were subcultured after approximately 40 days. Leaves were then cut off the shoots and cut into nodal segments (approximately 0.8 cm) each containing one node.

Inoculation of potato tissues

Shoots from approximately 40 days old shoot cultures (height approximately 5-6 cms) were cut into internodal segments (approximately 0.8 cm). The segments were placed into liquid LS-substrate containing the transformed Agrobacterium tumefaciens containing the binary vector of interest. The Agrobacterium were grown overnight in YMB-substrate (di-potassium hydrogen phosphate, trihydrate (0.66 g/l); magnesium sulphate, heptahydrate (0.20 g/l); sodium chloride (0.10 g/l); mannitol (10.0 g/l); and yeast extract (0.40 g/l)) containing appropriate antibiotics (corresponding to the resistance gene of the Agrobacterium strain) to an optical density at 660 nm (OD-660) of approximately 0.8, centrifuged and resuspended in the LS-substrate to an OD-660 of 0.5.

The segments were left in the suspension of Agrobacterium for 30 minutes and then the excess of bacteria were removed by blotting the segments on sterile filter paper.

Co-cultivation

The shoot segments were co-cultured with bacteria for 48 hours directly on LS-substrate containing agar (8.0 g/l), 2,4-dichlorophenoxyacetic acid (2.0 mg/l) and trans-zeatin (0.5 mg/l). The substrate and also the explants were covered with sterile filter papers, and the petri dishes were placed at 25° C. and 16 h light/8 dark.

"Washing" procedure

After the 48 h on the co-cultivation substrate the segments were transferred to containers containing liquid LS-substrate containing 800 mg/l carbenicillin. The containers were gently shaken and by this procedure the major part of the Agrobacterium was either washed off the segments and/or killed.

Selection

After the washing procedure the segments were transferred to plates containing the LS-substrate, agar (8 g/l), trans-zeatin (1-5 mg/l), gibberellic acid (0.1 mg/l), carbenicillin (800 mg/l), and kanamycin sulphate (50-100 mg/l) or phosphinotricin (1-5 mg/l) or mannose (5 g/l) depending on the vector construction used.

The segments were sub-cultured to fresh substrate each 34 weeks.

In 3 to 4 weeks, shoots develop from the segments and the formation of new shoots continued for 34 months.

Rooting of regenerated shoots

The regenerated shoots were transferred to rooting substrate composed of LS-substrates agar-(8 g/l) and carbenicillin (800 mg/l).

The transgenic genotype of the regenerated shoot was verified by testing the rooting ability on the above mentioned substrates containing kanamycin sulphate (200 mg/l), by performing NPTII assays (Radke, S. E. et al, Theor. Appl. Genet. (1988), 75: 685-694) or by performing PCR analysis according to Wang et al (1993, NAR 21 pp 4153-4154). Plants which were not positive in any of these assays were discarded or used as controls. Alternatively, the transgenic plants could be verified by performing a GUS assay on the co-introduced fi-glucuronidase gene according to Hodal, L. et al. (Pl. Sci. (1992), 87: 115-122).

Transfer to soil

The newly rooted plants (height approx. 2-3 cms) were transplanted from rooting substrate to soil and placed in a growth chamber (21° C., 16 hour light 200-400 uE/m² /sec). When the plants were well established they were transferred to the greenhouse, where they were grown until tubers had developed and the upper part of the plants were senescing.

Harvesting

The potatoes were harvested after about 3 months and then analysed.

Branching Enzyme Analysis

The SBE expression in the transgenic potato lines were measured using the SBE assays described by Blennow and Johansson (Phytochemistry (1991) 30:437-444) and by standard Western procedures using antibodies directed against potato SBE.

Starch Analysis

Starch was isolated from potato tubers and analysed for the amylose:amylopectin ratio (Hovenkamp-Hermelink et al. (1988) Potato Research 31:241-246). In addition, the chain length distribution of amylopectin was determined by analysis of isoamylase digested starch on a Dionex HPAEC.

The number of reducing ends in isoamylase digested starch was determined by the method described by N. Nelson (1944) J. Biol.Chem. 153:375-380.

The results revealed that there was a reduction in the level of synthesis of SBE and/or the level of activity of SBE and/or the composition of starch SBE in the transgenic plants.

Construction of SBE Promoter Construct

An SBE promoter fragment was amplified from λ-SBE 3.4 using primers:

5' CCA TCG ATA CTT TAA GTG ATT TGA TGG C 3' and

5' CGG GAT CCT GTT CTG ATT CTT GAT TTC C 3'.

The PCR product was digested with ClaI and BamHI. The resultant 1.2 kb fragment was then inserted in pVictor5a (see FIG. 11) linearised with ClaI and BglII yielding pBEP2 (see FIG. 10).

Starch Branching Enzyme Measurements of Potato Tubers

Potatoes from potato plants transformed with either pBEA8 or pBEA9 were cut in small pieces and homogenised in extraction buffer (50 mM Tris-HCl pH 7.5, Sodium-dithionit (0.1 g/l), and 2 mM DTT) using a Ultra-Turax homogenizer; 1 g of Dowex x1. was added pr. 10 g of tuber. The crude homogenate was filtered through a miracloth filter and centrifuged at 4° C. for 10 minutes at 24.700 g. The supernatant was used for starch branching enzyme assays.

The starch branching enzyme assays were carried out at 25° C. in a volume of 400 μl composed of 0.1 M Na citrate buffer pH 7.0, 0.75 mg/ml amylose, 5 mg/ml bovine serum albumin and the potato extract. At 0, 15, 30 and 60 minutes aliqouts of 50 μl were removed from the reaction into 20 μl 3 N HCl. 1 ml of iodine solution was added and the decrease in absorbance at 620 nm was measured with an ELISA spectrophotometer.

The starch branching enzyme (SBE) levels were measured in tuber extracts from 34 transgenic Dianella potato plants transformed with plasmid pBEA9.

The BEA9 transformed transgenic lines produced tubers which have SBE levels that are 10% to 15% of the SBE levels found in non transformed Dianella plants.

Summation

The above-mentioned examples relate to the isolation and sequencing of a gene for potato SBE. The examples further demonstrate that it is possible to prepare SBE intron antisense constructs. These SBE intron antisense constructs can be introduced into plants, such as potato plants. After introduction, a reduction in the level of synthesis of SBE and/or the level of activity of SBE and/or the composition of starch in plants can be achieved.

Without wishing to be bound by theory it is believed that the expressed anti-sense nucleotide sequence of the present invention binds to sense introns on pre-mRNA and thereby prevents pre-mRNA splicing and/or subsequent translation of mRNA. This binding therefore is believed to reduce the level of plant enzyme activity (in particular SBE activity), which in turn for SBE activity is believed to influence the amylose:amylopectin ratio and thus the branching pattern of amylopectin.

Thus, the present invention provides a method wherein it is possible to manipulate the starch composition in plants, or tissues or cells thereof, such as potato tubers, by reducing the level of SBE activity by using an antisense-RNA technique using antisense intron sequences.

In summation the present invention therefore relates to the surprising use of antisense intron sequences in a method to affect enzymatic activity in plants.

Other modifications of the present invention will be apparent to those skilled in the art without departing from the scope of the present invention.

For example, it may be possible to use antisense promoter sequences to affect enzymatic activity, such as antisense SBE promoter--such as a nucleotide sequence comprising the nucleotide sequence shown as SEQ. I.D. No. 28 or a variant, derivative or homologue thereof.

The following pages present a number of sequence listings which have been consecutively numbered from SEQ.I.D. No. 1-SEQ.I.D. No. 29. In brief, SEQ.I.D. No. 1-SEQ.I.D. No. 13 represent sense intron sequences (genomic DNA); SEQ.I.D. No. 14 represents the SBE promoter sequence (genomic sequence); SEQ.I.D. No. 15-SEQ.I.D. No. 27 represent antisense intron sequences: and SEQ. I.D. No. 28 represents is the sequence complementary to the SBE promoter sequence i.e. the SBE promoter sequence in antisense orientation. The full genomic nucleotide sequence for SBE including the promoter, exons and introns is shown as SEQ. I.D. No. 29 and is explained by way of FIGS. 4 and 12 which highlight particular gene features.

    __________________________________________________________________________     #             SEQUENCE LISTING                                                    - -  - - <160> NUMBER OF SEQ ID NOS: 33                                        - - <210> SEQ ID NO 1                                                         <211> LENGTH: 1167                                                             <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 1                                                          - - gtaattttta ctaatttcat gttaatttca attattttta gcctttgcat tt -             #cattttcc     60                                                                  - - aatatatctg gatcatctcc ttagtttttt attttatttt ttataatatc aa -             #atatggaa    120                                                                  - - gaaaaatgac acttgtagag ccatatgtaa gtatcatgtg acaaatttgc aa -             #ggtggttg    180                                                                  - - agtgtataaa attcaaaaat tgagagatgg agggggggtg ggggbaraga ca -             #atatttag    240                                                                  - - aaagagtgtt ctaggaggtt atggaggaca cggatgaggg gtagaaggtt ag -             #ttaggtat    300                                                                  - - ttgagtgttg tctggcttat cctttcatac tagtagtcgt ggaattattt gg -             #gtagtttc    360                                                                  - - ttgttttgtt atttgatctt tgttattcta ttttctgttt cttgtacttc ga -             #ttattgta    420                                                                  - - ttatatatct tgtcgtagtt attgttcctc ggtaagaatg ctctagcatg ct -             #tcctttag    480                                                                  - - tgttttatca tgccttcttt atattcgcgt tgctttgaaa tgcttttact tt -             #agccgagg    540                                                                  - - gtctattaga aacaatctct ctatctcgta aggtaggggt aaagtcctca cc -             #acactcca    600                                                                  - - cttgtgggat tacattgtgt ttgttgttgt aaatcaatta tgtatacata at -             #aagtggat    660                                                                  - - tttttacaac acaaatacat ggtcaagggc aaagttctga acacataaag gg -             #ttcattat    720                                                                  - - atgtccaggg atatgataaa aattgtttct ttgtgaaagt tatataagat tt -             #gttatggc    780                                                                  - - ttttgctgga aacataataa gttataatgc tgagatagct actgaagttt gt -             #tttttcta    840                                                                  - - gccttttaaa tgtaccaata atagattccg tatcgaacga gtatgttttg at -             #tacctggt    900                                                                  - - catgatgttt ctatttttta catttttttg gtgttgaact gcaattgaaa at -             #gttgtatc    960                                                                  - - ctatgagacg gatagttgag aatgtgttct ttgtatggac cttgagaagc tc -             #aaacgcta   1020                                                                  - - ctccaataat ttctatgaat tcaaattcag tttatggcta ccagtcagtc ca -             #gaaattag   1080                                                                  - - gatatgctgc atatacttgt tcaattatac tgtaaaattt cttaagttct ca -             #agatatcc   1140                                                                  - - atgtaacctc gagaatttct ttgacag          - #                  - #                1167                                                                      - -  - - <210> SEQ ID NO 2                                                    <211> LENGTH: 321                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 2                                                          - - gtatgtttga taatttatat ggttgcatgg atagtatata aatagttgga aa -              #acttctgg     60                                                                  - - actggtgctc atggcatatt tgatctgtgc accgtgtgga gatgtcaaac at -             #gtgttact    120                                                                  - - tcgttccgcc aatttataat accttaactt gggaaagaca gctctttact cc -             #tgtgggca    180                                                                  - - tttgttattt gaattacaat ctttatgagc atggtgtttt cacattatca ac -             #ttctttca    240                                                                  - - tgtggtatat aacagttttt agctccgtta atacctttct tctttttgat at -             #aaactaac    300                                                                  - - tgtggtgcat tgcttgcbkk k           - #                  - #                      321                                                                      - -  - - <210> SEQ ID NO 3                                                    <211> LENGTH: 504                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 3                                                          - - gtaacagcca aaagttgtgc tttaggcagt ttgaccttat tttggaagat ga -              #attgttta     60                                                                  - - tacctacttt gactttgcta gagaattttg cataccgggg agtaagtagt gg -             #ctccattt    120                                                                  - - aggtggcacc tggccatttt tttgatcttt taaaaagctg tttgattggg tc -             #ttcaaaaa    180                                                                  - - agtagacaag gtttttggag aagtgacaca cccccggagt gtcagtggca aa -             #gcaaagat    240                                                                  - - tttcactaag gagattcaaa atataaaaaa agtatagaca taaagaagct ga -             #ggggattc    300                                                                  - - aacatgtact atacaagcat caaatatagt cttaaagcaa ttttgtagaa at -             #aaagaaag    360                                                                  - - tcttccttct gttgcttcac aatttccttc tattatcatg agttactctt tc -             #tgttcgaa    420                                                                  - - atagcttcct taatattaaa ttcatgatac ttttgttgag atttagcagt tt -             #tttcttgt    480                                                                  - - gtaaactgct ctcttttttt gcag          - #                  - #                    504                                                                      - -  - - <210> SEQ ID NO 4                                                    <211> LENGTH: 146                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 4                                                          - - gtaggtcctc gtctactaca aaatagtagt ttccatcatc ataacagatt tt -              #cctattaa     60                                                                  - - agcatgatgt tgcagcatca ttggctttct tacatgttct aattgctatt aa -             #ggttatgc    120                                                                  - - ttctaattaa ctcatccaca atgcag          - #                  - #                  146                                                                      - -  - - <210> SEQ ID NO 5                                                    <211> LENGTH: 218                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 5                                                          - - gttttgttat tcataccttg aagctgaatt ttgaacacca tcatcacagg ca -              #tttcgatt     60                                                                  - - catgttctta ctagtcttgt tatgtaagac attttgaaat gcaaaagtta aa -             #ataattgt    120                                                                  - - gtctttacta atttggactt gatcccatac tctttccctt aacaaaatga gt -             #caattcta    180                                                                  - - taagtgcttg agaacttact acttcagcaa ttaaacag      - #                       - #    218                                                                      - -  - - <210> SEQ ID NO 6                                                    <211> LENGTH: 198                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 6                                                          - - gtattttaaa tttatttcta caactaaata attctcagaa caattgttag at -              #agaatcca     60                                                                  - - aatatatacg tcctgaaagt ataaaagtac ttattttcgc catgggcctt ca -             #gaatattg    120                                                                  - - gtagccgctg aatatcatga taagttattt atccagtgac atttttatgt tc -             #actcctat    180                                                                  - - tatgtctgct ggatacag             - #                  - #                       - # 198                                                                   - -  - - <210> SEQ ID NO 7                                                    <211> LENGTH: 208                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 7                                                          - - gtttgtctgt ttctattgca ttttaaggtt catataggtt agccacggaa aa -              #tctcactc     60                                                                  - - tttgtgaggt aaccagggtt ctgatggatt attcaatttt ctcgtttatc at -             #ttgtttat    120                                                                  - - tcttttcatg cattgtgttt ctttttcaat atccctctta tttggaggta at -             #ttttctca    180                                                                  - - tctattcact tttagcttct aaccacag         - #                  - #                 208                                                                      - -  - - <210> SEQ ID NO 8                                                    <211> LENGTH: 293                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 8                                                          - - gtatgtctta catctttaga tattttgtga taattacaat tagtttggct ta -              #cttgaaca     60                                                                  - - agattcattc ctcaaaatga cctgaactgt tgaacatcaa aggggttgaa ac -             #atagagga    120                                                                  - - aaacaacatg atgaatgttt ccattgtcta gggatttcta ttatgttgct ga -             #gaacaaat    180                                                                  - - gtcatcttaa aaaaaacatt gtttactttt ttgtagtata gaagattact gt -             #atagagtt    240                                                                  - - tgcaagtgtg tctgttttgg agtaattgtg aaatgtttga tgaacttgta ca - #g                293                                                                        - -  - - <210> SEQ ID NO 9                                                    <211> LENGTH: 376                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 9                                                          - - gttcaagtat tttgaatcgc agcttgttaa ataatctagt aatttttaga tt -              #gcttactt     60                                                                  - - ggaagtctac ttggttctgg ggatgatagc tcatttcatc ttgttctact ta -             #ttttccaa    120                                                                  - - ccgaatttct gatttttgtt tcgagatcca agtattagat tcatttacac tt -             #attaccgc    180                                                                  - - ctcatttcta ccactaaggc cttgatgagc agcttaagtt gattctttga ag -             #ctatagtt    240                                                                  - - tcaggctacc aatccacagc ctgctatatt tgttggatac ttaccttttc tt -             #tacaatga    300                                                                  - - agtgatacta attgaaatgg tctaaatctg atatctatat ttctccgtct tt -             #cctccccc    360                                                                  - - tcatgatgaa atgcag             - #                  - #                       - #   376                                                                   - -  - - <210> SEQ ID NO 10                                                   <211> LENGTH: 172                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 10                                                         - - gtaaaatcat ctaaagttga aagtgttggg tttatgaagt gctttaattc ta -              #tccaagga     60                                                                  - - caagtagaaa cctttttacc ttccatttct tgatgatgga tttcatatta tt -             #taatccaa    120                                                                  - - tagctggtca aattcggtaa tagctgtact gattagttac ttcactttgc ag - #                 172                                                                        - -  - - <210> SEQ ID NO 11                                                   <211> LENGTH: 145                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 11                                                         - - gtatatatgt tttacttatc catgaaatta ttgctctgct tgtttttaat gt -              #actgaaca     60                                                                  - - agttttatgg agaagtaact gaaacaaatc attttcacat tgtctaattt aa -             #ctcttttt    120                                                                  - - tctgatcctc gcatgacgaa aacag          - #                  - #                   145                                                                      - -  - - <210> SEQ ID NO 12                                                   <211> LENGTH: 242                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 12                                                         - - gtaaggattt gcttgaataa cttttgataa taagataaca gatgtagggt ac -              #agttctct     60                                                                  - - caccaaaaag aactgtaatt gtctcatcca tctttagttg tataagatat cc -             #gactgtct    120                                                                  - - gagttcggaa gtgtttgagc ctcctgccct ccccctgcgt tgtttagcta at -             #tcaaaaag    180                                                                  - - gagaaaactg tttattgatg atctttgtct tcatgctgac atacaatctg tt -             #ctcatgac    240                                                                  - - ag                  - #                  - #                  - #                  242                                                                   - -  - - <210> SEQ ID NO 13                                                   <211> LENGTH: 797                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 13                                                         - - gtacagttct tgccgtgtga cctccctttt tattgtggtt ttgttcatag tt -              #atttgaat     60                                                                  - - gcgatagaag ttaactattg attaccgcca caatcgccag ttaagtcctc tg -             #aactacta    120                                                                  - - atttgaaagg taggaatagc cgtaataagg tctacttttg gcatcttact gt -             #tacaaaac    180                                                                  - - aaaaggatgc caaaaaaatt cttctctatc ctctttttcc ctaaaccagt gc -             #atgtagct    240                                                                  - - tgcacctgca taaacttagg taaatgatca aaaatgaagt tgatgggaac tt -             #aaaaccgc    300                                                                  - - cctgaagtaa agctaggaat agtcatataa tgtccacctt tggtgtctgc gc -             #taacatca    360                                                                  - - acaacaacat acctcgtgta gtcccacaaa gtggtttcag ggggagggta ga -             #gtgtatgc    420                                                                  - - aaaacttact cctatctcag aggtagagag gattttttca atagaccctt gg -             #ctcaagaa    480                                                                  - - aaaaagtcca aaaagaagta acagaagtga aagcaacatg tgtagctaaa gc -             #gacccaac    540                                                                  - - ttgtttggga ctgaagtagt tgttgttgtt gaaacagtgc atgtagatga ac -             #acatgtca    600                                                                  - - gaaaatggac aacacagtta ttttgtgcaa gtcaaaaaaa tgtactacta tt -             #tctttgtg    660                                                                  - - cagctttatg tatagaaaag ttaaataact aatgaatttt gctagcagaa aa -             #atagcttg    720                                                                  - - gagagaaatt ttttatattg aactaagcta actatattca tctttctttt tg -             #cttcttct    780                                                                  - - tctccttgtt tgtgaag             - #                  - #                       - #  797                                                                   - -  - - <210> SEQ ID NO 14                                                   <211> LENGTH: 2169                                                             <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 14                                                         - - atcatggcca attactggtt caaatgcatt acttcctttc agattctttc ga -              #gttctcat     60                                                                  - - gaccggtcct actacagacg atactaaccc gtggaactgt tgcatctgct tc -             #ttagaact    120                                                                  - - ctatggctat tttcgttagc ttggcgtcgg tttgaacata gtttttgttt tc -             #aaactctt    180                                                                  - - catttacagt caaaatgttg tatggttttt gttttcctca atgatgttta ca -             #gtgttgtg    240                                                                  - - ttgtcatctg tacttttgcc tattacttgt tttgagttac atgttaaaaa ag -             #tgtttatt    300                                                                  - - ttgccatatt ttgttctctt attattatta tcatacatac attattacaa gg -             #aaaagaca    360                                                                  - - agtacacaga tcttaacgtt tatgttcaat caacttttgg aggcattgac ag -             #gtaccaca    420                                                                  - - aattttgagt ttatgattaa gttcaatctt agaatatgaa tttaacatct at -             #tatagatg    480                                                                  - - cataaaaata gctaatgata gaacattgac atttggcaga gcttagggta tg -             #gtatatcc    540                                                                  - - aacgttaatt tagtaatttt tgttacgtac gtatatgaaa tattgaatta at -             #cacatgaa    600                                                                  - - cggtggatat tatattatga gttggcatca gcaaaatcat tggtgtagtt ga -             #ctgtagtt    660                                                                  - - gcagatttaa taataaaatg gtaattaacg gtcgatatta aaataactct ca -             #tttcaagt    720                                                                  - - gggattagaa ctagttatta aaaaaatgta tactttaagt gatttgatgg ca -             #tataattt    780                                                                  - - aaagtttttc atttcatgct aaaattgtta attattgtaa tgtagactgc ga -             #ctggaatt    840                                                                  - - attatagtgt aaatttatgc attcagtgta aaattaaagt attgaacttg tc -             #tgttttag    900                                                                  - - aaaatacttt atactttaat ataggatttt gtcatgcgaa tttaaattaa tc -             #gatattga    960                                                                  - - acacggaata ccaaaattaa aaaggataca catggccttc atatgaaccg tg -             #aacctttg   1020                                                                  - - ataacgtgga agttcaaaga aggtaaagtt taagaataaa ctgacaaatt aa -             #tttctttt   1080                                                                  - - atttggccca ctactaaatt tgctttactt tctaacatgt caagttgtgc cc -             #tcttagtt   1140                                                                  - - gaatgatatt catttttcat cccataagtt caatttgatt gtcataccac cc -             #atgatgtt   1200                                                                  - - ctgaaaaatg cttggccatt cacaaagttt atcttagttc ctatgaactt ta -             #taagaagc   1260                                                                  - - tttaatttga catgttattt atattagatg atataatcca tgacccaata ga -             #caagtgta   1320                                                                  - - ttaatattgt aactttgtaa ttgagtgtgt ctacatctta ttcaatcatt ta -             #aggtcatt   1380                                                                  - - aaaataaatt attttttgac attctaaaac tttaagcaga ataaatagtt ta -             #tcaattat   1440                                                                  - - taaaaacaaa aaacgactta tttataaatc aacaaacaat tttagattgc tc -             #caacatat   1500                                                                  - - ttttccaaat taaatgcaga aaatgcataa ttttatactt gatctttata gc -             #ttattttt   1560                                                                  - - tttagcctaa ccaacgaata tttgtaaact cacaacttga ttaaaaggga tt -             #tacaacaa   1620                                                                  - - gatatatata agtagtgaca aatcttgatt ttaaatattt taatttggag gt -             #caaaattt   1680                                                                  - - taccataatc atttgtattt ataattaaat tttaaatatc ttatttatac at -             #atctagta   1740                                                                  - - aacttttaaa tatacgtata tacaaaatat aaaattattg gcgttcatat ta -             #ggtcaata   1800                                                                  - - aatccttaac tatatctgcc ttaccactag gagaaagtaa aaaactcttt ac -             #caaaaata   1860                                                                  - - catgtattat gtatacaaaa agtcgattag attacctaaa tagaaattgt at -             #aacgagta   1920                                                                  - - agtaagtaga aatataaaaa aactacaata ctaaaaaaaa tatgttttac tt -             #caatttcg   1980                                                                  - - aaactaatgg ggtctgagtg aaatattcag aaaggggagg actaacaaaa gg -             #gtcataat   2040                                                                  - - gtttttttat aaaaagccac taaaatgagg aaatcaagaa tcagaacata ca -             #agaaggca   2100                                                                  - - gcagctgaag caaagtacca taatttaatc aatggaaatt aatttcaaag tt -             #ttatcaaa   2160                                                                  - - acccattcg                - #                  - #                       - #       2169                                                                   - -  - - <210> SEQ ID NO 15                                                   <211> LENGTH: 1167                                                             <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 15                                                         - - ctgtcaaaga aattctcgag gttacatgga tatcttgaga acttaagaaa tt -              #ttacagta     60                                                                  - - taattgaaca agtatatgca gcatatccta atttctggac tgactggtag cc -             #ataaactg    120                                                                  - - aatttgaatt catagaaatt attggagtag cgtttgagct tctcaaggtc ca -             #tacaaaga    180                                                                  - - acacattctc aactatccgt ctcataggat acaacatttt caattgcagt tc -             #aacaccaa    240                                                                  - - aaaaatgtaa aaaatagaaa catcatgacc aggtaatcaa aacatactcg tt -             #cgatacgg    300                                                                  - - aatctattat tggtacattt aaaaggctag aaaaaacaaa cttcagtagc ta -             #tctcagca    360                                                                  - - ttataactta ttatgtttcc agcaaaagcc ataacaaatc ttatataact tt -             #cacaaaga    420                                                                  - - aacaattttt atcatatccc tggacatata atgaaccctt tatgtgttca ga -             #actttgcc    480                                                                  - - cttgaccatg tatttgtgtt gtaaaaaatc cacttattat gtatacataa tt -             #gatttaca    540                                                                  - - acaacaaaca caatgtaatc ccacaagtgg agtgtggtga ggactttacc cc -             #taccttac    600                                                                  - - gagatagaga gattgtttct aatagaccct cggctaaagt aaaagcattt ca -             #aagcaacg    660                                                                  - - cgaatataaa gaaggcatga taaaacacta aaggaagcat gctagagcat tc -             #ttaccgag    720                                                                  - - gaacaataac tacgacaaga tatataatac aataatcgaa gtacaagaaa ca -             #gaaaatag    780                                                                  - - aataacaaag atcaaataac aaaacaagaa actacccaaa taattccacg ac -             #tactagta    840                                                                  - - tgaaaggata agccagacaa cactcaaata cctaactaac cttctacccc tc -             #atccgtgt    900                                                                  - - cctccataac ctcctagaac actctttcta aatattgtct ytvcccccac cc -             #cccctcca    960                                                                  - - tctctcaatt tttgaatttt atacactcaa ccaccttgca aatttgtcac at -             #gatactta   1020                                                                  - - catatggctc tacaagtgtc atttttcttc catatttgat attataaaaa at -             #aaaataaa   1080                                                                  - - aaactaagga gatgatccag atatattgga aaatgaaatg caaaggctaa aa -             #ataattga   1140                                                                  - - aattaacatg aaattagtaa aaattac          - #                  - #                1167                                                                      - -  - - <210> SEQ ID NO 16                                                   <211> LENGTH: 321                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 16                                                         - - mmmvgcaagc aatgcaccac agttagttta tatcaaaaag aagaaaggta tt -              #aacggagc     60                                                                  - - taaaaactgt tatataccac atgaaagaag ttgataatgt gaaaacacca tg -             #ctcataaa    120                                                                  - - gattgtaatt caaataacaa atgcccacag gagtaaagag ctgtctttcc ca -             #agttaagg    180                                                                  - - tattataaat tggcggaacg aagtaacaca tgtttgacat ctccacacgg tg -             #cacagatc    240                                                                  - - aaatatgcca tgagcaccag tccagaagtt ttccaactat ttatatacta tc -             #catgcaac    300                                                                  - - catataaatt atcaaacata c           - #                  - #                      321                                                                      - -  - - <210> SEQ ID NO 17                                                   <211> LENGTH: 504                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 17                                                         - - ctgcaaaaaa agagagcagt ttacacaaga aaaaactgct aaatctcaac aa -              #aagtatca     60                                                                  - - tgaatttaat attaaggaag ctatttcgaa cagaaagagt aactcatgat aa -             #tagaagga    120                                                                  - - aattgtgaag caacagaagg aagactttct ttatttctac aaaattgctt ta -             #agactata    180                                                                  - - tttgatgctt gtatagtaca tgttgaatcc cctcagcttc tttatgtcta ta -             #cttttttt    240                                                                  - - atattttgaa tctccttagt gaaaatcttt gctttgccac tgacactccg gg -             #ggtgtgtc    300                                                                  - - acttctccaa aaaccttgtc tacttttttg aagacccaat caaacagctt tt -             #taaaagat    360                                                                  - - caaaaaaatg gccaggtgcc acctaaatgg agccactact tactccccgg ta -             #tgcaaaat    420                                                                  - - tctctagcaa agtcaaagta ggtataaaca attcatcttc caaaataagg tc -             #aaactgcc    480                                                                  - - taaagcacaa cttttggctg ttac          - #                  - #                    504                                                                      - -  - - <210> SEQ ID NO 18                                                   <211> LENGTH: 146                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 18                                                         - - ctgcattgtg gatgagttaa ttagaagcat aaccttaata gcaattagaa ca -              #tgtaagaa     60                                                                  - - agccaatgat gctgcaacat catgctttaa taggaaaatc tgttatgatg at -             #ggaaacta    120                                                                  - - ctattttgta gtagacgagg acctac          - #                  - #                  146                                                                      - -  - - <210> SEQ ID NO 19                                                   <211> LENGTH: 218                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 19                                                         - - ctgtttaatt gctgaagtag taagttctca agcacttata gaattgactc at -              #tttgttaa     60                                                                  - - gggaaagagt atgggatcaa gtccaaatta gtaaagacac aattatttta ac -             #ttttgcat    120                                                                  - - ttcaaaatgt cttacataac aagactagta agaacatgaa tcgaaatgcc tg -             #tgatgatg    180                                                                  - - gtgttcaaaa ttcagcttca aggtatgaat aacaaaac      - #                       - #    218                                                                      - -  - - <210> SEQ ID NO 20                                                   <211> LENGTH: 198                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 20                                                         - - ctgtatccag cagacataat aggagtgaac ataaaaatgt cactggataa at -              #aacttatc     60                                                                  - - atgatattca gcggctacca atattctgaa ggcccatggc gaaaataagt ac -             #ttttatac    120                                                                  - - tttcaggacg tatatatttg gattctatct aacaattgtt ctgagaatta tt -             #tagttgta    180                                                                  - - gaaataaatt taaaatac             - #                  - #                       - # 198                                                                   - -  - - <210> SEQ ID NO 21                                                   <211> LENGTH: 208                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 21                                                         - - ctgtggttag aagctaaaag tgaatagatg agaaaaatta cctccaaata ag -              #agggatat     60                                                                  - - tgaaaaagaa acacaatgca tgaaaagaat aaacaaatga taaacgagaa aa -             #ttgaataa    120                                                                  - - tccatcagaa ccctggttac ctcacaaaga gtgagatttt ccgtggctaa cc -             #tatatgaa    180                                                                  - - ccttaaaatg caatagaaac agacaaac         - #                  - #                 208                                                                      - -  - - <210> SEQ ID NO 22                                                   <211> LENGTH: 293                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 22                                                         - - ctgtacaagt tcatcaaaca tttcacaatt actccaaaac agacacactt gc -              #aaactcta     60                                                                  - - tacagtaatc ttctatacta caaaaaagta aacaatgttt tttttaagat ga -             #catttgtt    120                                                                  - - ctcagcaaca taatagaaat ccctagacaa tggaaacatt catcatgttg tt -             #ttcctcta    180                                                                  - - tgtttcaacc cctttgatgt tcaacagttc aggtcatttt gaggaatgaa tc -             #ttgttcaa    240                                                                  - - gtaagccaaa ctaattgtaa ttatcacaaa atatctaaag atgtaagaca ta - #c                293                                                                        - -  - - <210> SEQ ID NO 23                                                   <211> LENGTH: 376                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 23                                                         - - ctgcatttca tcatgagggg gaggaaagac ggagaaatat agatatcaga tt -              #tagaccat     60                                                                  - - ttcaattagt atcacttcat tgtaaagaaa aggtaagtat ccaacaaata ta -             #gcaggctg    120                                                                  - - tggattggta gcctgaaact atagcttcaa agaatcaact taagctgctc at -             #caaggcct    180                                                                  - - tagtggtaga aatgaggcgg taataagtgt aaatgaatct aatacttgga tc -             #tcgaaaca    240                                                                  - - aaaatcagaa attcggttgg aaaataagta gaacaagatg aaatgagcta tc -             #atccccag    300                                                                  - - aaccaagtag acttccaagt aagcaatcta aaaattacta gattatttaa ca -             #agctgcga    360                                                                  - - ttcaaaatac ttgaac             - #                  - #                       - #   376                                                                   - -  - - <210> SEQ ID NO 24                                                   <211> LENGTH: 172                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 24                                                         - - ctgcaaagtg aagtaactaa tcagtacagc tattaccgaa tttgaccagc ta -              #ttggatta     60                                                                  - - aataatatga aatccatcat caagaaatgg aaggtaaaaa ggtttctact tg -             #tccttgga    120                                                                  - - tagaattaaa gcacttcata aacccaacac tttcaacttt agatgatttt ac - #                 172                                                                        - -  - - <210> SEQ ID NO 25                                                   <211> LENGTH: 145                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 25                                                         - - ctgttttcgt catgcgagga tcagaaaaaa gagttaaatt agacaatgtg aa -              #aatgattt     60                                                                  - - gtttcagtta cttctccata aaacttgttc agtacattaa aaacaagcag ag -             #caataatt    120                                                                  - - tcatggataa gtaaaacata tatac          - #                  - #                   145                                                                      - -  - - <210> SEQ ID NO 26                                                   <211> LENGTH: 242                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 26                                                         - - ctgtcatgag aacagattgt atgtcagcat gaagacaaag atcatcaata aa -              #cagttttc     60                                                                  - - tcctttttga attagctaaa caacgcaggg ggagggcagg aggctcaaac ac -             #ttccgaac    120                                                                  - - tcagacagtc ggatatctta tacaactaaa gatggatgag acaattacag tt -             #ctttttgg    180                                                                  - - tgagagaact gtaccctaca tctgttatct tattatcaaa agttattcaa gc -             #aaatcctt    240                                                                  - - ac                  - #                  - #                  - #                  242                                                                   - -  - - <210> SEQ ID NO 27                                                   <211> LENGTH: 797                                                              <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 27                                                         - - cttcacaaac aaggagaaga agaagcaaaa agaaagatga atatagttag ct -              #tagttcaa     60                                                                  - - tataaaaaat ttctctccaa gctatttttc tgctagcaaa attcattagt ta -             #tttaactt    120                                                                  - - ttctatacat aaagctgcac aaagaaatag tagtacattt ttttgacttg ca -             #caaaataa    180                                                                  - - ctgtgttgtc cattttctga catgtgttca tctacatgca ctgtttcaac aa -             #caacaact    240                                                                  - - acttcagtcc caaacaagtt gggtcgcttt agctacacat gttgctttca ct -             #tctgttac    300                                                                  - - ttctttttgg actttttttc ttgagccaag ggtctattga aaaaatcctc tc -             #tacctctg    360                                                                  - - agataggagt aagttttgca tacactctac cctccccctg aaaccacttt gt -             #gggactac    420                                                                  - - acgaggtatg ttgttgttga tgttagcgca gacaccaaag gtggacatta ta -             #tgactatt    480                                                                  - - cctagcttta cttcagggcg gttttaagtt cccatcaact tcatttttga tc -             #atttacct    540                                                                  - - aagtttatgc aggtgcaagc tacatgcact ggtttaggga aaaagaggat ag -             #agaagaat    600                                                                  - - ttttttggca tccttttgtt ttgtaacagt aagatgccaa aagtagacct ta -             #ttacggct    660                                                                  - - attcctacct ttcaaattag tagttcagag gacttaactg gcgattgtgg cg -             #gtaatcaa    720                                                                  - - tagttaactt ctatcgcatt caaataacta tgaacaaaac cacaataaaa ag -             #ggaggtca    780                                                                  - - cacggcaaga actgtac             - #                  - #                       - #  797                                                                   - -  - - <210> SEQ ID NO 28                                                   <211> LENGTH: 2169                                                             <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 28                                                         - - cgaatgggtt ttgataaaac tttgaaatta atttccattg attaaattat gg -              #tactttgc     60                                                                  - - ttcagctgct gccttcttgt atgttctgat tcttgatttc ctcattttag tg -             #gcttttta    120                                                                  - - taaaaaaaca ttatgaccct tttgttagtc ctcccctttc tgaatatttc ac -             #tcagaccc    180                                                                  - - cattagtttc gaaattgaag taaaacatat tttttttagt attgtagttt tt -             #ttatattt    240                                                                  - - ctacttactt actcgttata caatttctat ttaggtaatc taatcgactt tt -             #tgtataca    300                                                                  - - taatacatgt atttttggta aagagttttt tactttctcc tagtggtaag gc -             #agatatag    360                                                                  - - ttaaggattt attgacctaa tatgaacgcc aataatttta tattttgtat at -             #acgtatat    420                                                                  - - ttaaaagttt actagatatg tataaataag atatttaaaa tttaattata aa -             #tacaaatg    480                                                                  - - attatggtaa aattttgacc tccaaattaa aatatttaaa atcaagattt gt -             #cactactt    540                                                                  - - atatatatct tgttgtaaat cccttttaat caagttgtga gtttacaaat at -             #tcgttggt    600                                                                  - - taggctaaaa aaaataagct ataaagatca agtataaaat tatgcatttt ct -             #gcatttaa    660                                                                  - - tttggaaaaa tatgttggag caatctaaaa ttgtttgttg atttataaat aa -             #gtcgtttt    720                                                                  - - ttgtttttaa taattgataa actatttatt ctgcttaaag ttttagaatg tc -             #aaaaaata    780                                                                  - - atttatttta atgaccttaa atgattgaat aagatgtaga cacactcaat ta -             #caaagtta    840                                                                  - - caatattaat acacttgtct attgggtcat ggattatatc atctaatata aa -             #taacatgt    900                                                                  - - caaattaaag cttcttataa agttcatagg aactaagata aactttgtga at -             #ggccaagc    960                                                                  - - atttttcaga acatcatggg tggtatgaca atcaaattga acttatggga tg -             #aaaaatga   1020                                                                  - - atatcattca actaagaggg cacaacttga catgttagaa agtaaagcaa at -             #ttagtagt   1080                                                                  - - gggccaaata aaagaaatta atttgtcagt ttattcttaa actttacctt ct -             #ttgaactt   1140                                                                  - - ccacgttatc aaaggttcac ggttcatatg aaggccatgt gtatcctttt ta -             #attttggt   1200                                                                  - - attccgtgtt caatatcgat taatttaaat tcgcatgaca aaatcctata tt -             #aaagtata   1260                                                                  - - aagtattttc taaaacagac aagttcaata ctttaatttt acactgaatg ca -             #taaattta   1320                                                                  - - cactataata attccagtcg cagtctacat tacaataatt aacaatttta gc -             #atgaaatg   1380                                                                  - - aaaaacttta aattatatgc catcaaatca cttaaagtat acattttttt aa -             #taactagt   1440                                                                  - - tctaatccca cttgaaatga gagttatttt aatatcgacc gttaattacc at -             #tttattat   1500                                                                  - - taaatctgca actacagtca actacaccaa tgattttgct gatgccaact ca -             #taatataa   1560                                                                  - - tatccaccgt tcatgtgatt aattcaatat ttcatatacg tacgtaacaa aa -             #attactaa   1620                                                                  - - attaacgttg gatataccat accctaagct ctgccaaatg tcaatgttct at -             #cattagct   1680                                                                  - - atttttatgc atctataata gatgttaaat tcatattcta agattgaact ta -             #atcataaa   1740                                                                  - - ctcaaaattt gtggtacctg tcaatgcctc caaaagttga ttgaacataa ac -             #gttaagat   1800                                                                  - - ctgtgtactt gtcttttcct tgtaataatg tatgtatgat aataataata ag -             #agaacaaa   1860                                                                  - - atatggcaaa ataaacactt ttttaacatg taactcaaaa caagtaatag gc -             #aaaagtac   1920                                                                  - - agatgacaac acaacactgt aaacatcatt gaggaaaaca aaaaccatac aa -             #cattttga   1980                                                                  - - ctgtaaatga agagtttgaa aacaaaaact atgttcaaac cgacgccaag ct -             #aacgaaaa   2040                                                                  - - tagccataga gttctaagaa gcagatgcaa cagttccacg ggttagtatc gt -             #ctgtagta   2100                                                                  - - ggaccggtca tgagaactcg aaagaatctg aaaggaagta atgcatttga ac -             #cagtaatt   2160                                                                  - - ggccatgat                - #                  - #                       - #       2169                                                                   - -  - - <210> SEQ ID NO 29                                                   <211> LENGTH: 11478                                                            <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 29                                                         - - atcatggcca attactggtt caaatgcatt acttcctttc agattctttc ga -              #gttctcat     60                                                                  - - gaccggtcct actacagacg atactaaccc gtggaactgt tgcatctgct tc -             #ttagaact    120                                                                  - - ctatggctat tttcgttagc ttggcgtcgg tttgaacata gtttttgttt tc -             #aaactctt    180                                                                  - - catttacagt caaaatgttg tatggttttt gttttcctca atgatgttta ca -             #gtgttgtg    240                                                                  - - ttgtcatctg tacttttgcc tattacttgt tttgagttac atgttaaaaa ag -             #tgtttatt    300                                                                  - - ttgccatatt ttgttctctt attattatta tcatacatac attattacaa gg -             #aaaagaca    360                                                                  - - agtacacaga tcttaacgtt tatgttcaat caacttttgg aggcattgac ag -             #gtaccaca    420                                                                  - - aattttgagt ttatgattaa gttcaatctt agaatatgaa tttaacatct at -             #tatagatg    480                                                                  - - cataaaaata gctaatgata gaacattgac atttggcaga gcttagggta tg -             #gtatatcc    540                                                                  - - aacgttaatt tagtaatttt tgttacgtac gtatatgaaa tattgaatta at -             #cacatgaa    600                                                                  - - cggtggatat tatattatga gttggcatca gcaaaatcat tggtgtagtt ga -             #ctgtagtt    660                                                                  - - gcagatttaa taataaaatg gtaattaacg gtcgatatta aaataactct ca -             #tttcaagt    720                                                                  - - gggattagaa ctagttatta aaaaaatgta tactttaagt gatttgatgg ca -             #tataattt    780                                                                  - - aaagtttttc atttcatgct aaaattgtta attattgtaa tgtagactgc ga -             #ctggaatt    840                                                                  - - attatagtgt aaatttatgc attcagtgta aaattaaagt attgaacttg tc -             #tgttttag    900                                                                  - - aaaatacttt atactttaat ataggatttt gtcatgcgaa tttaaattaa tc -             #gatattga    960                                                                  - - acacggaata ccaaaattaa aaaggataca catggccttc atatgaaccg tg -             #aacctttg   1020                                                                  - - ataacgtgga agttcaaaga aggtaaagtt taagaataaa ctgacaaatt aa -             #tttctttt   1080                                                                  - - atttggccca ctactaaatt tgctttactt tctaacatgt caagttgtgc cc -             #tcttagtt   1140                                                                  - - gaatgatatt catttttcat cccataagtt caatttgatt gtcataccac cc -             #atgatgtt   1200                                                                  - - ctgaaaaatg cttggccatt cacaaagttt atcttagttc ctatgaactt ta -             #taagaagc   1260                                                                  - - tttaatttga catgttattt atattagatg atataatcca tgacccaata ga -             #caagtgta   1320                                                                  - - ttaatattgt aactttgtaa ttgagtgtgt ctacatctta ttcaatcatt ta -             #aggtcatt   1380                                                                  - - aaaataaatt attttttgac attctaaaac tttaagcaga ataaatagtt ta -             #tcaattat   1440                                                                  - - taaaaacaaa aaacgactta tttataaatc aacaaacaat tttagattgc tc -             #caacatat   1500                                                                  - - ttttccaaat taaatgcaga aaatgcataa ttttatactt gatctttata gc -             #ttattttt   1560                                                                  - - tttagcctaa ccaacgaata tttgtaaact cacaacttga ttaaaaggga tt -             #tacaacaa   1620                                                                  - - gatatatata agtagtgaca aatcttgatt ttaaatattt taatttggag gt -             #caaaattt   1680                                                                  - - taccataatc atttgtattt ataattaaat tttaaatatc ttatttatac at -             #atctagta   1740                                                                  - - aacttttaaa tatacgtata tacaaaatat aaaattattg gcgttcatat ta -             #ggtcaata   1800                                                                  - - aatccttaac tatatctgcc ttaccactag gagaaagtaa aaaactcttt ac -             #caaaaata   1860                                                                  - - catgtattat gtatacaaaa agtcgattag attacctaaa tagaaattgt at -             #aacgagta   1920                                                                  - - agtaagtaga aatataaaaa aactacaata ctaaaaaaaa tatgttttac tt -             #caatttcg   1980                                                                  - - aaactaatgg ggtctgagtg aaatattcag aaaggggagg actaacaaaa gg -             #gtcataat   2040                                                                  - - gtttttttat aaaaagccac taaaatgagg aaatcaagaa tcagaacata ca -             #agaaggca   2100                                                                  - - gcagctgaag caaagtacca taatttaatc aatggaaatt aatttcaaag tt -             #ttatcaaa   2160                                                                  - - acccattcga ggatcttttc catctttctc acctaaagtt tcttcagggg ta -             #atttttac   2220                                                                  - - taatttcatg ttaatttcaa ttatttttag cctttgcatt tcattttcca at -             #atatctgg   2280                                                                  - - atcatctcct tagtttttta ttttattttt tataatatca aatatggaag aa -             #aaatgaca   2340                                                                  - - cttgtagagc catatgtaag tatcatgtga caaatttgca aggtggttga gt -             #gtataaaa   2400                                                                  - - ttcaaaaatt gagagatgga gggggggtgg gggbaragac aatatttaga aa -             #gagtgttc   2460                                                                  - - taggaggtta tggaggacac ggatgagggg tagaaggtta gttaggtatt tg -             #agtgttgt   2520                                                                  - - ctggcttatc ctttcatact agtagtcgtg gaattatttg ggtagtttct tg -             #ttttgtta   2580                                                                  - - tttgatcttt gttattctat tttctgtttc ttgtacttcg attattgtat ta -             #tatatctt   2640                                                                  - - gtcgtagtta ttgttcctcg gtaagaatgc tctagcatgc ttcctttagt gt -             #tttatcat   2700                                                                  - - gccttcttta tattcgcgtt gctttgaaat gcttttactt tagccgaggg tc -             #tattagaa   2760                                                                  - - acaatctctc tatctcgtaa ggtaggggta aagtcctcac cacactccac tt -             #gtgggatt   2820                                                                  - - acattgtgtt tgttgttgta aatcaattat gtatacataa taagtggatt tt -             #ttacaaca   2880                                                                  - - caaatacatg gtcaagggca aagttctgaa cacataaagg gttcattata tg -             #tccaggga   2940                                                                  - - tatgataaaa attgtttctt tgtgaaagtt atataagatt tgttatggct tt -             #tgctggaa   3000                                                                  - - acataataag ttataatgct gagatagcta ctgaagtttg ttttttctag cc -             #ttttaaat   3060                                                                  - - gtaccaataa tagattccgt atcgaacgag tatgttttga ttacctggtc at -             #gatgtttc   3120                                                                  - - tattttttac atttttttgg tgttgaactg caattgaaaa tgttgtatcc ta -             #tgagacgg   3180                                                                  - - atagttgaga atgtgttctt tgtatggacc ttgagaagct caaacgctac tc -             #caataatt   3240                                                                  - - tctatgaatt caaattcagt ttatggctac cagtcagtcc agaaattagg at -             #atgctgca   3300                                                                  - - tatacttgtt caattatact gtaaaatttc ttaagttctc aagatatcca tg -             #taacctcg   3360                                                                  - - agaatttctt tgacaggctt ctagaaataa gatatgtttt ccttctcaac at -             #agtactgg   3420                                                                  - - actgaagttt ggatctcagg aacggtcttg ggatatttct tccaccccaa aa -             #tcaagagt   3480                                                                  - - tagaaaagat gaaagggtat gtttgataat ttatatggtt gcatggatag ta -             #tataaata   3540                                                                  - - gttggaaaac ttctggactg gtgctcatgg catatttgat ctgtgcaccg tg -             #tggagatg   3600                                                                  - - tcaaacatgt gttacttcgt tccgccaatt tataatacct taacttggga aa -             #gacagctc   3660                                                                  - - tttactcctg tgggcatttg ttatttgaat tacaatcttt atgagcatgg tg -             #ttttcaca   3720                                                                  - - ttatcaactt ctttcatgtg gtatataaca gtttttagct ccgttaatac ct -             #ttcttctt   3780                                                                  - - tttgatataa actaactgtg gtgcattgct tgcbkkkatg aagcacagtt ca -             #gctatttc   3840                                                                  - - cgctgttttg accgatgacg acaattcgac aatggcaccc ctagaggaag at -             #gtcaagac   3900                                                                  - - tgaaaatatt ggcctcctaa atttggatcc aactttggaa ccttatctag at -             #cacttcag   3960                                                                  - - acacagaatg aagagatatg tggatcagaa aatgctcatt gaaaaatatg ag -             #ggacccct   4020                                                                  - - tgaggaattt gctcaaggta acagccaaaa gttgtgcttt aggcagtttg ac -             #cttatttt   4080                                                                  - - ggaagatgaa ttgtttatac ctactttgac tttgctagag aattttgcat ac -             #cggggagt   4140                                                                  - - aagtagtggc tccatttagg tggcacctgg ccattttttt gatcttttaa aa -             #agctgttt   4200                                                                  - - gattgggtct tcaaaaaagt agacaaggtt tttggagaag tgacacaccc cc -             #ggagtgtc   4260                                                                  - - agtggcaaag caaagatttt cactaaggag attcaaaata taaaaaaagt at -             #agacataa   4320                                                                  - - agaagctgag gggattcaac atgtactata caagcatcaa atatagtctt aa -             #agcaattt   4380                                                                  - - tgtagaaata aagaaagtct tccttctgtt gcttcacaat ttccttctat ta -             #tcatgagt   4440                                                                  - - tactctttct gttcgaaata gcttccttaa tattaaattc atgatacttt tg -             #ttgagatt   4500                                                                  - - tagcagtttt ttcttgtgta aactgctctc tttttttgca ggttatttaa aa -             #tttggatt   4560                                                                  - - caacagggaa gatggttgca tagtctatcg tgaatgggct cctgctgctc ag -             #taggtcct   4620                                                                  - - cgtctactac aaaatagtag tttccatcat cataacagat tttcctatta aa -             #gcatgatg   4680                                                                  - - ttgcagcatc attggctttc ttacatgttc taattgctat taaggttatg ct -             #tctaatta   4740                                                                  - - actcatccac aatgcaggga agcagaagtt attggcgatt tcaatggatg ga -             #acggttct   4800                                                                  - - aaccacatga tggagaagga ccagtttggt gtttggagta ttagaattcc tg -             #atgttgac   4860                                                                  - - agtaagccag tcattccaca caactccaga gttaagtttc gtttcaaaca tg -             #gtaatgga   4920                                                                  - - gtgtgggtag atcgtatccc tgcttggata aagtatgcca ctgcagacgc ca -             #caaagttt   4980                                                                  - - gcagcaccat atgatggtgt ctactgggac ccaccacctt cagaaaggtt tt -             #gttattca   5040                                                                  - - taccttgaag ctgaattttg aacaccatca tcacaggcat ttcgattcat gt -             #tcttacta   5100                                                                  - - gtcttgttat gtaagacatt ttgaaatgca aaagttaaaa taattgtgtc tt -             #tactaatt   5160                                                                  - - tggacttgat cccatactct ttcccttaac aaaatgagtc aattctataa gt -             #gcttgaga   5220                                                                  - - acttactact tcagcaatta aacaggtacc acttcaaata ccctcgccct cc -             #caaacccc   5280                                                                  - - gagccccacg aatctatgaa gcacatgtcg gcatgagcag ctctgagcca cg -             #tgtaaatt   5340                                                                  - - cgtatcgtga gtttgcagat gatgttttac ctcggattaa ggcaaataac ta -             #taatactg   5400                                                                  - - tccagttgat ggccataatg gaacattctt actatggatc atttggatat ca -             #tgttacaa   5460                                                                  - - acttttttgc tgtgagcagt agatatggaa acccggagga cctaaagtat ct -             #gatagata   5520                                                                  - - aagcacatag cttgggttta caggttctgg tggatgtagt tcacagtcat gc -             #aagcaata   5580                                                                  - - atgtcactga tggcctcaat ggctttgata ttggccaagg ttctcaagaa tc -             #ctactttc   5640                                                                  - - atgctggaga gcgagggtac cataagttgt gggatagcag gctgttcaac ta -             #tgccaatt   5700                                                                  - - gggaggttct tcgtttcctt ctttccaact tgaggtggtg gctagaagag ta -             #taactttg   5760                                                                  - - acggatttcg atttgatgga ataacttcta tgctgtatgt tcatcatgga at -             #caatatgg   5820                                                                  - - gatttacagg aaactataat gagtatttca gcgaggctac agatgttgat gc -             #tgtggtct   5880                                                                  - - atttaatgtt ggccaataat ctgattcaca agattttccc agatgcaact gt -             #tattgccg   5940                                                                  - - aagatgtttc tggtatgccg ggccttggcc ggcctgtttc tgagggagga at -             #tggttttg   6000                                                                  - - tttaccgcct ggcaatggca atcccagata agtggataga ttatttaaag aa -             #taagaatg   6060                                                                  - - atgaagattg gtccatgaag gaagtaacat cgagtttgac aaataggaga ta -             #tacagaga   6120                                                                  - - agtgtatagc atatgcggag acccatgatc aggtatttta aatttatttc ta -             #caactaaa   6180                                                                  - - taattctcag aacaattgtt agatagaatc caaatatata cgtcctgaaa gt -             #ataaaagt   6240                                                                  - - acttattttc gccatgggcc ttcagaatat tggtagccgc tgaatatcat ga -             #taagttat   6300                                                                  - - ttatccagtg acatttttat gttcactcct attatgtctg ctggatacag tc -             #tattgttg   6360                                                                  - - gtgacaagac cattgcattt ctcctaatgg acaaagagat gtattctggc at -             #gtcttgct   6420                                                                  - - tgacagatgc ttctcctgtt gttgatcgag gaattgcgct tcacaaggtt tg -             #tctgtttc   6480                                                                  - - tattgcattt taaggttcat ataggttagc cacggaaaat ctcactcttt gt -             #gaggtaac   6540                                                                  - - cagggttctg atggattatt caattttctc gtttatcatt tgtttattct tt -             #tcatgcat   6600                                                                  - - tgtgtttctt tttcaatatc cctcttattt ggaggtaatt tttctcatct at -             #tcactttt   6660                                                                  - - agcttctaac cacagatgat ccattttttc acaatggcct tgggaggaga gg -             #ggtacctc   6720                                                                  - - aatttcatgg gtaacgaggt atgtcttaca tctttagata ttttgtgata at -             #tacaatta   6780                                                                  - - gtttggctta cttgaacaag attcattcct caaaatgacc tgaactgttg aa -             #catcaaag   6840                                                                  - - gggttgaaac atagaggaaa acaacatgat gaatgtttcc attgtctagg ga -             #tttctatt   6900                                                                  - - atgttgctga gaacaaatgt catcttaaaa aaaacattgt ttactttttt gt -             #agtataga   6960                                                                  - - agattactgt atagagtttg caagtgtgtc tgttttggag taattgtgaa at -             #gtttgatg   7020                                                                  - - aacttgtaca gtttggccat cctgagtgga ttgacttccc tagagagggc aa -             #taattgga   7080                                                                  - - gttatgacaa atgtagacgc cagtggaacc tcgcggatag cgaacacttg ag -             #atacaagg   7140                                                                  - - ttcaagtatt ttgaatcgca gcttgttaaa taatctagta atttttagat tg -             #cttacttg   7200                                                                  - - gaagtctact tggttctggg gatgatagct catttcatct tgttctactt at -             #tttccaac   7260                                                                  - - cgaatttctg atttttgttt cgagatccaa gtattagatt catttacact ta -             #ttaccgcc   7320                                                                  - - tcatttctac cactaaggcc ttgatgagca gcttaagttg attctttgaa gc -             #tatagttt   7380                                                                  - - caggctacca atccacagcc tgctatattt gttggatact taccttttct tt -             #acaatgaa   7440                                                                  - - gtgatactaa ttgaaatggt ctaaatctga tatctatatt tctccgtctt tc -             #ctccccct   7500                                                                  - - catgatgaaa tgcagtttat gaatgcattt gatagagcta tgaattcgct cg -             #atgaaaag   7560                                                                  - - ttctcattcc tcgcatcagg aaaacagata gtaagcagca tggatgatga ta -             #ataaggta   7620                                                                  - - aaatcatcta aagttgaaag tgttgggttt atgaagtgct ttaattctat cc -             #aaggacaa   7680                                                                  - - gtagaaacct ttttaccttc catttcttga tgatggattt catattattt aa -             #tccaatag   7740                                                                  - - ctggtcaaat tcggtaatag ctgtactgat tagttacttc actttgcagg tt -             #gttgtgtt   7800                                                                  - - tgaacgtggt gacctggtat ttgtattcaa cttccaccca aagaacacat ac -             #gaagggta   7860                                                                  - - tatatgtttt acttatccat gaaattattg ctctgcttgt ttttaatgta ct -             #gaacaagt   7920                                                                  - - tttatggaga agtaactgaa acaaatcatt ttcacattgt ctaatttaac tc -             #ttttttct   7980                                                                  - - gatcctcgca tgacgaaaac aggtataaag ttggatgtga cttgccaggg aa -             #gtacagag   8040                                                                  - - ttgcactgga cagtgatgct tgggaatttg gtggccatgg aagagtaagg at -             #ttgcttga   8100                                                                  - - ataacttttg ataataagat aacagatgta gggtacagtt ctctcaccaa aa -             #agaactgt   8160                                                                  - - aattgtctca tccatcttta gttgtataag atatccgact gtctgagttc gg -             #aagtgttt   8220                                                                  - - gagcctcctg ccctccccct gcgttgttta gctaattcaa aaaggagaaa ac -             #tgtttatt   8280                                                                  - - gatgatcttt gtcttcatgc tgacatacaa tctgttctca tgacagactg gt -             #catgatgt   8340                                                                  - - tgaccatttc acatcaccag aaggaatacc tggagttcca gaaacaaatt tc -             #aatggtcg   8400                                                                  - - tccaaattcc ttcaaagtgc tgtctcctgc gcgaacatgt gtggtacagt tc -             #ttgccgtg   8460                                                                  - - tgacctccct ttttattgtg gttttgttca tagttatttg aatgcgatag aa -             #gttaacta   8520                                                                  - - ttgattaccg ccacaatcgc cagttaagtc ctctgaacta ctaatttgaa ag -             #gtaggaat   8580                                                                  - - agccgtaata aggtctactt ttggcatctt actgttacaa aacaaaagga tg -             #ccaaaaaa   8640                                                                  - - attcttctct atcctctttt tccctaaacc agtgcatgta gcttgcacct gc -             #ataaactt   8700                                                                  - - aggtaaatga tcaaaaatga agttgatggg aacttaaaac cgccctgaag ta -             #aagctagg   8760                                                                  - - aatagtcata taatgtccac ctttggtgtc tgcgctaaca tcaacaacaa ca -             #tacctcgt   8820                                                                  - - gtagtcccac aaagtggttt cagggggagg gtagagtgta tgcaaaactt ac -             #tcctatct   8880                                                                  - - cagaggtaga gaggattttt tcaatagacc cttggctcaa gaaaaaaagt cc -             #aaaaagaa   8940                                                                  - - gtaacagaag tgaaagcaac atgtgtagct aaagcgaccc aacttgtttg gg -             #actgaagt   9000                                                                  - - agttgttgtt gttgaaacag tgcatgtaga tgaacacatg tcagaaaatg ga -             #caacacag   9060                                                                  - - ttattttgtg caagtcaaaa aaatgtacta ctatttcttt gtgcagcttt at -             #gtatagaa   9120                                                                  - - aagttaaata actaatgaat tttgctagca gaaaaatagc ttggagagaa at -             #tttttata   9180                                                                  - - ttgaactaag ctaactatat tcatctttct ttttgcttct tcttctcctt gt -             #ttgtgaag   9240                                                                  - - gcttattaca gagttgatga acgcatgtca gaaactgaag attaccagac ag -             #acatttgt   9300                                                                  - - agtgagctac taccaacagc caatatcgag gagagtgacg agaaacttaa ag -             #attcgtta   9360                                                                  - - tctacaaata tcagtaacat tgacgaacgc atgtcagaaa ctgaagttta cc -             #agacagac   9420                                                                  - - atttctagtg agctactacc aacagccaat attgaggaga gtgacgagaa ac -             #ttaaagat   9480                                                                  - - tcgttatcta caaatatcag taacattgat cagactgttg tagtttctgt tg -             #aggagaga   9540                                                                  - - gacaaggaac ttaaagattc accgtctgta agcatcatta gtgatgttgt tc -             #cagctgaa   9600                                                                  - - tgggatgatt cagatgcaaa cgtctggggt gaggactagt cagatgattg at -             #cgaccctt   9660                                                                  - - ctaccgattg gtgatcgcta tccttgctct ctgagaaata ggtgaggcga aa -             #caaaaaat   9720                                                                  - - aatttgcatg ataaaaagtc tgattttatg atcgctatcc tcgctctctg ag -             #aaagaagc   9780                                                                  - - gaaacaaagg cgactcctgg actcgaatct ataagataac aaaggcgact cc -             #tgggactc   9840                                                                  - - gaatctataa gataacaaag gcaattccaa gacttgaatc tataaaaaat tt -             #agttaaga   9900                                                                  - - atgattaacg tccgatccta attcgaatcg aggcatctta ccactccatt ga -             #taattata   9960                                                                  - - taagtcaata agtcatataa wagtattaaa aactaaattg acttgatcgg tc -             #tatcaaaa  10020                                                                  - - atmagatmaa attgtgttca tatgtaacat ttttgttgtc acaattagct ta -             #attacatc  10080                                                                  - - tttcatgtgc aataacaaag aaatgatagg aatttagaga ttccaatttt tt -             #tgttgcca  10140                                                                  - - caattaactt aattacatct ttcatttgca ataacaaaga aatgatagga at -             #ttagagat  10200                                                                  - - ccagtgtcaa tacacaacct aggccaacat cgaaagcata actgtaaact ca -             #tgcatgaa  10260                                                                  - - gaaatcagtc gtaaaaatga ataaatgcga cataaaaaca aattgcatgt at -             #cattaatg  10320                                                                  - - tgacttaact acaagtaaaa ataaatttaa caaatgtaac ttaactacaa gt -             #aaaaataa  10380                                                                  - - attgcttcta tcattaacaa acaaacagaa ttaaaaagaa aaaaacatac ta -             #aatcttac  10440                                                                  - - cgtcattcga taaaaaaaaa taccaaattc ataatgcaag gaaaacgaaa cg -             #cgtcctga  10500                                                                  - - tcgggtatca acgatgaaat ggaccagttg gatcgactgc ctgcacaacg tt -             #aggtatgc  10560                                                                  - - caaaaaaaag aacacgatcc tttgcacccg ttcgatgatt atcagtatgt tc -             #acaaaaaa  10620                                                                  - - aacttaagtt catcccagtg tacaacagcc ccaacatctg ccccaagtaa ca -             #aaaaacaa  10680                                                                  - - ccaatttatc ttattcttat ctgccacaaa ataatcggtt tcacactatt ct -             #cttgttat  10740                                                                  - - acaaaattga caagtaggaa ggagaggagt catccaaata aacggtgcac gt -             #tctttgag  10800                                                                  - - aaaagtctta tttttcgtaa gatccaattt caacaaactt ttcttcaagt ca -             #aaattcct  10860                                                                  - - gatagtgtat ctcctctcga cgacctcttg cattgaacga tctccgctta tc -             #atgaaaag  10920                                                                  - - ttgcttggat aacaagtatt gcaagggggg gacagtagct attaagttag tc -             #ggcccaag  10980                                                                  - - gaaatggagg agtgatagtc tcgaatatta ttcacctctt tagcattacc cg -             #gtctggct  11040                                                                  - - ttaaggagtt acgtctttta cgctcgccaa tttctttttt tagaatggtt gg -             #tgtcaaaa  11100                                                                  - - tcgcgagttg tggaaggttc aagttactcg attcgtgatt ttcaagtatg ag -             #tggtgaga  11160                                                                  - - gagattcgat attttcacga ggtgtattcg aggtctagta gaacgaaggg tg -             #tcactaat  11220                                                                  - - gaaagtttca agagttcatc atcatcttct tctagtagat tttcgctttc aa -             #atgagtat  11280                                                                  - - gaaaattctt cctcttttct attgattttc ttcattgttt tcttcattgt tg -             #tggttgtt  11340                                                                  - - attgaaaaga aagaaaattt ataacagaaa aagatgtcaa aaaaaaggta aa -             #atgaaaga  11400                                                                  - - gtatcatata cttaaagagt tgcgtagaga taagtcaaaa gaaacagaat ta -             #tagtaatt  11460                                                                  - - tcagctaagt tagaattc             - #                  - #                      114 - #78                                                                  - -  - - <210> SEQ ID NO 30                                                   <211> LENGTH: 26                                                               <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 30                                                         - - ggaattccag tcgcagtcta cattac          - #                  - #                   26                                                                       - -  - - <210> SEQ ID NO 31                                                   <211> LENGTH: 28                                                               <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 31                                                         - - cgggatccag aggcattaag atttctgg         - #                  - #                  28                                                                       - -  - - <210> SEQ ID NO 32                                                   <211> LENGTH: 32                                                               <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 32                                                         - - cgggatccaa agaaattctc gaggttacat gg       - #                  - #               32                                                                       - -  - - <210> SEQ ID NO 33                                                   <211> LENGTH: 32                                                               <212> TYPE: DNA                                                                <213> ORGANISM: Solanum tuberosum                                               - - <400> SEQUENCE: 33                                                         - - cgggatccgg ggtaattttt actaatttca tg       - #                  - #               32                                                                     __________________________________________________________________________ 

What is claimed is:
 1. A method of reducing the activity of a potato starch branching enzyme in a plant or a cell, a tissue or an organ thereof comprising expressing in the plant, or the cell, the tissue or the organ thereof, a nucleic acid molecule encoding antisense RNA to an intron associated with a genomic sequence encoding said enzyme; wherein the nucleic acid molecule does not encode antisense RNA to an exon of the genomic sequence.
 2. The method of claim 1 wherein the levels of amylopectin are reduced or the composition of starch is changed.
 3. The method according to claim 1 wherein the nucleic acid molecule encodes an antisense RNA to intron 1 of potato starch branching enzyme.
 4. The method according to claim 1 wherein the nucleic acid molecule comprises the sequence shown as ally one of SEQ. ID. No. 15 to SEQ. ID. No.
 27. 5. The method according to claim 1 wherein the nucleic acid molecule is expressed by a promoter having a sequence comprising the sequence shown as SEQ. ID. No.
 14. 6. The method according to claim 3 wherein the nucleic acid molecule is expressed by a promoter having a sequence comprising the sequence shown as SEQ. ID. No.
 14. 7. An isolated nucleic acid molecule comprising the nucleotide sequence shown as any one of SEQ. ID. No. 15 to SEQ. ID. No.
 27. 8. A vector comprising the nucleic acid molecule according to claim
 7. 9. A transgenic plant comprising an isolated nucleic acid molecule encoding antisense RNA to an intron associated with a genomic sequence encoding a potato starch branching enzyme normally expressed by the cell, the tissue or the organ; wherein the nucleic acid molecule does not encode antisense RNA to an exon of the genomic sequence.
 10. A transgenic plant comprising an isolated nucleic acid molecule according to claim
 7. 11. pBEA8 (NCIMB 40753) or pBEA9 (NICMB 40815).
 12. A method of expressing a potato starch branching enzyme in a plant comprising expressing a first nucleic acid molecule coding for the potato starch branching enzyme; and expressing a second nucleic acid molecule; wherein second nucleic acid molecule encodes an antisense RNA to an intron associated with a genomic sequence encoding said potato starch branching enzyme; wherein the second nucleic acid molecule does not encode antisense RNA to an exon of the genomic sequence.
 13. The method according to claim 12 wherein the second nucleic acid molecule encodes an antisense RNA to intron 1 of potato starch branching enzyme.
 14. A method of reducing starch branching enzymatic activity in a plant, or a cell, a tissue or an organ thereof, comprising expressing in the plant, or the cell, the tissue or organ thereof a nucleic acid molecule encoding antisense RNA to intron 1 of the potato starch branching enzyme, optionally under the control of the promoter of the potato starch branching enzyme.
 15. The method according to claim 14 wherein levels of amylopectin are affected or the composition of starch is changed in the plant, or the cell, tissue or organ thereof.
 16. The method according to claim 14 wherein the nucleic acid comprises the sequence shown as any one of SEQ. ID. No. 15 to SEQ. ID. No.
 27. 17. The method according to claim 14 wherein the nucleic acid molecule is expressed by a promoter having a sequence comprising the sequence shown as SEQ ID NO.
 14. 18. The method according to claim 16 wherein the nucleic acid molecule is expressed by a promoter having a sequence comprising the sequence shown as SEQ ID NO.
 14. 19. A method of reducing starch branching enzymatic activity in a starch producing plant or a cell, a tissue, or an organ thereof, comprising expressing in the starch producing plant, the cell, the tissue or the organ thereof a nucleic acid molecule encoding antisense RNA to intron 1 of the potato starch branching enzyme, optionally under the control of the promoter of the potato starch branching enzyme.
 20. The method according to claimed 19 wherein levels of amylopectin are affected or the composition of starch is changed in the starch producing plant, or the cell, tissue or organ thereof.
 21. The method according to claim 19 wherein the nucleic acid comprises the sequence shown as any one of SEQ. ID. No. 15 to SEQ. ID No.
 27. 22. The method according to claim 19 wherein the nucleic acid molecule is expressed by a promoter having a sequence comprising the sequence shown as SEQ ID NO.
 14. 23. The method according to claim 21 wherein the nucleic acid molecule is expressed by a promoter having a sequence comprising the sequence shown as SEQ ID NO.
 14. 